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base: open_pub:v0.9.5
Branches Tags
open_pub:main open_pub:dev open_pub:feat/samples open_pub:feature/organic-extraction open_pub:prcix9320 open_pub:feat/add_unilabos_class open_pub:feat/unilabos-full-version open_pub:fix/workstation-yb-revision open_pub:workstation_YB_merge_dev_ready_260113 open_pub:feat/add_custom_widget open_pub:workstation_dev_YB_260113 open_pub:workstation_dev_YB4_0110 open_pub:workstation_dev_YB4_0107 open_pub:workstation_dev_YB4 open_pub:workstation_dev_YB5 open_pub:workflow_uploader open_pub:workstation_dev_YB2 open_pub:clean
open_pub:v0.10.17 open_pub:v0.10.14 open_pub:v0.10.13 open_pub:v0.10.12 open_pub:v0.10.7 open_pub:v0.10.3 open_pub:v0.10.1 open_pub:v0.9.7 open_pub:v0.9.5 open_pub:v0.9.1 open_pub:v0.9.0 open_pub:v0.8.0
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compare: open_pub:f2b3e0743e785e234feccf8447bf840f5421062a
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open_pub:dev open_pub:feat/samples open_pub:feature/organic-extraction open_pub:prcix9320 open_pub:main open_pub:feat/add_unilabos_class open_pub:feat/unilabos-full-version open_pub:fix/workstation-yb-revision open_pub:workstation_YB_merge_dev_ready_260113 open_pub:feat/add_custom_widget open_pub:workstation_dev_YB_260113 open_pub:workstation_dev_YB4_0110 open_pub:workstation_dev_YB4_0107 open_pub:workstation_dev_YB4 open_pub:workstation_dev_YB5 open_pub:workflow_uploader open_pub:workstation_dev_YB2 open_pub:clean
open_pub:v0.10.17 open_pub:v0.10.14 open_pub:v0.10.13 open_pub:v0.10.12 open_pub:v0.10.7 open_pub:v0.10.3 open_pub:v0.10.1 open_pub:v0.9.7 open_pub:v0.9.5 open_pub:v0.9.1 open_pub:v0.9.0 open_pub:v0.8.0

18 Commits
v0.9.5 ... f2b3e0743e

Author SHA1 Message Date
KCFeng425
f2b3e0743e Add Virtual Device, Action, YAML, Protocol for Organic Syn 2025-06-12 12:43:50 +08:00
KCFeng425
fe492bbca9 Add new action 2025-06-09 23:48:03 +08:00
KCFeng425
8c96be4229 Edit mock device yaml 2025-06-09 23:47:41 +08:00
KCFeng425
f947658bbd Match mock device with action 2025-06-09 23:47:23 +08:00
KCFeng425
6d56466897 Edited Mock device json 2025-06-09 23:46:37 +08:00
Xuwznln
eac2c27e99 删除大写目录 2025-06-05 23:42:50 +08:00
Xuwznln
f2f9b45aa6 更改Mock大写文件夹名 2025-06-05 23:23:00 +08:00
Xuwznln
0e2fdb5695 规范模拟设备代码与注册表信息 2025-06-05 23:00:41 +08:00
KCFeng425
ca15173717 Add Device Mock \_init_.py 2025-06-05 15:37:24 +08:00
KCFeng425
94e79418b9 Add Device MockSolenoidValve 2025-06-05 15:36:53 +08:00
KCFeng425
02b4750637 Add Device MockVacuum 2025-06-05 15:12:35 +08:00
KCFeng425
4e636b91b4 Add Device MockHeater 2025-06-05 14:08:30 +08:00
KCFeng425
3af1964328 Add Device MockStirrer 2025-06-05 13:47:10 +08:00
KCFeng425
f661049823 Add Device MockSeparator 2025-06-05 13:41:55 +08:00
KCFeng425
a79c26b9a4 Add Device MockRotavap 2025-06-05 13:40:41 +08:00
KCFeng425
8cf51ee8d3 Add Device MockPump 2025-06-05 13:35:22 +08:00
KCFeng425
8c81dab7e1 Add Device MockFilter 2025-06-05 13:34:54 +08:00
KCFeng425
ff76bb1a76 Add Device MockChiller 
Add device MockChiller
 2025-06-05 13:33:56 +08:00
220 changed files with 3125 additions and 37769 deletions
Expand all files Collapse all files

3
.gitignore vendored
View File

@@ -232,5 +232,4 @@ CATKIN_IGNORE
/**/local_config.py
*.graphml
unilabos/device_mesh/view_robot.rviz
*.graphml

2
MANIFEST.in
View File

@@ -1,5 +1,3 @@
recursive-include unilabos/registry *.yaml
recursive-include unilabos/app/web *.html
recursive-include unilabos/app/web *.css
recursive-include unilabos/device_mesh/devices *
recursive-include unilabos/device_mesh/resources *

8
README.md
View File

@@ -12,11 +12,7 @@
[![GitHub Issues](https://img.shields.io/github/issues/dptech-corp/Uni-Lab-OS.svg)](https://github.com/dptech-corp/Uni-Lab-OS/issues)
[![GitHub License](https://img.shields.io/github/license/dptech-corp/Uni-Lab-OS.svg)](https://github.com/dptech-corp/Uni-Lab-OS/blob/main/LICENSE)
Uni-Lab-OS is a platform for laboratory automation, designed to connect and control various experimental equipment, enabling automation and standardization of experimental workflows.
## 🏆 Competition
Join the [Intelligent Organic Chemistry Synthesis Competition](https://bohrium.dp.tech/competitions/1451645258) to explore automated synthesis with Uni-Lab-OS!
Uni-Lab Operating System is a platform for laboratory automation, designed to connect and control various experimental equipment, enabling automation and standardization of experimental workflows.
## Key Features
@@ -49,7 +45,7 @@ conda env update --file unilabos-[YOUR_OS].yml -n environment_name
# Currently, you need to install the `unilabos_msgs` package
# You can download the system-specific package from the Release page
conda install ros-humble-unilabos-msgs-0.9.5-xxxxx.tar.bz2
conda install ros-humble-unilabos-msgs-0.9.1-xxxxx.tar.bz2
# Install PyLabRobot and other prerequisites
git clone https://github.com/PyLabRobot/pylabrobot plr_repo

8
README_zh.md
View File

@@ -12,11 +12,7 @@
[![GitHub Issues](https://img.shields.io/github/issues/dptech-corp/Uni-Lab-OS.svg)](https://github.com/dptech-corp/Uni-Lab-OS/issues)
[![GitHub License](https://img.shields.io/github/license/dptech-corp/Uni-Lab-OS.svg)](https://github.com/dptech-corp/Uni-Lab-OS/blob/main/LICENSE)
Uni-Lab-OS是一个用于实验室自动化的综合平台,旨在连接和控制各种实验设备,实现实验流程的自动化和标准化。
## 🏆 比赛
欢迎参加[有机化学合成智能实验大赛](https://bohrium.dp.tech/competitions/1451645258),使用 Uni-Lab-OS 探索自动化合成!
Uni-Lab 操作系统是一个用于实验室自动化的综合平台,旨在连接和控制各种实验设备,实现实验流程的自动化和标准化。
## 核心特点
@@ -49,7 +45,7 @@ conda env update --file unilabos-[YOUR_OS].yml -n 环境名
# 现阶段,需要安装 `unilabos_msgs` 包
# 可以前往 Release 页面下载系统对应的包进行安装
conda install ros-humble-unilabos-msgs-0.9.5-xxxxx.tar.bz2
conda install ros-humble-unilabos-msgs-0.9.1-xxxxx.tar.bz2
# 安装PyLabRobot等前置
git clone https://github.com/PyLabRobot/pylabrobot plr_repo

7
recipes/macos_sdk_config.yaml
View File

@@ -1,7 +0,0 @@
CONDA_BUILD_SYSROOT:
- /Library/Developer/CommandLineTools/SDKs/MacOSX.sdk
MACOSX_DEPLOYMENT_TARGET:
- "11.0"
CONDA_SUBDIR:
- osx-arm64
# boa build -m ./recipes/conda_build_config.yaml -m ./recipes/macos_sdk_config.yaml ./recipes/ros-humble-unilabos-msgs

2
recipes/ros-humble-unilabos-msgs/recipe.yaml
View File

@@ -1,6 +1,6 @@
package:
name: ros-humble-unilabos-msgs
version: 0.9.5
version: 0.9.1
source:
path: ../../unilabos_msgs
folder: ros-humble-unilabos-msgs/src/work

2
recipes/unilabos/recipe.yaml
View File

@@ -1,6 +1,6 @@
package:
name: unilabos
version: "0.9.5"
version: "0.9.1"
source:
path: ../..

2
setup.cfg
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@@ -1,2 +1,4 @@
[develop]
script_dir=$base/lib/unilabos
[install]
install_scripts=$base/lib/unilabos

2
setup.py
View File

@@ -4,7 +4,7 @@ package_name = 'unilabos'
setup(
name=package_name,
version='0.9.5',
version='0.9.1',
packages=find_packages(),
include_package_data=True,
install_requires=['setuptools'],

0
test/experiments/mock_protocol/addteststation.json → test/experiments/addteststation.json
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22
test/experiments/biomek.json
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@@ -1,22 +0,0 @@
{
"nodes": [
{
"id": "BIOMEK",
"name": "BIOMEK",
"parent": null,
"type": "device",
"class": "liquid_handler.biomek",
"position": {
"x": 620.6111111111111,
"y": 171,
"z": 0
},
"config": {
},
"data": {},
"children": [
]
}
],
"links": []
}

0
test/experiments/mock_protocol/centrifugeteststation.json → test/experiments/centrifugeteststation.json
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0
test/experiments/mock_protocol/cleanvesselteststation.json → test/experiments/cleanvesselteststation.json
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0
test/experiments/mock_protocol/dissolveteststation.json → test/experiments/dissolveteststation.json
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0
test/experiments/mock_protocol/evaporateteststation.json → test/experiments/evaporateteststation.json
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0
test/experiments/mock_protocol/filterteststation.json → test/experiments/filterteststation.json
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0
test/experiments/mock_protocol/filterthroughteststation.json → test/experiments/filterthroughteststation.json
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0
test/experiments/mock_protocol/heatchillteststation.json → test/experiments/heatchillteststation.json
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4562
test/experiments/plr_test_converted.json
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File diff suppressed because it is too large Load Diff

1710
test/experiments/plr_test_converted_slim.json
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File diff suppressed because it is too large Load Diff

0
test/experiments/mock_protocol/runcolumnteststation.json → test/experiments/runcolumnteststation.json
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0
test/experiments/mock_protocol/stirteststation.json → test/experiments/stirteststation.json
View File

35
test/experiments/test_moveit.json
View File

@@ -1,35 +0,0 @@
{
"nodes": [
{
"id": "benyao",
"name": "benyao",
"children": [
],
"parent": null,
"type": "device",
"class": "moveit.arm_slider",
"position": {
"x": 0,
"y": 0,
"z": 0
},
"config": {
"moveit_type": "arm_slider",
"joint_poses": {
"arm": {
"home": [0.0, 0.2, 0.0, 0.0, 0.0],
"pick": [1.2, 0.0, 0.0, 0.0, 0.0]
}
},
"device_config": {
}
},
"data": {
}
}
],
"links": [
]
}

0
test/experiments/mock_protocol/transferteststation.json → test/experiments/transferteststation.json
View File

0
test/experiments/mock_protocol/washsolidteststation.json → test/experiments/washsolidteststation.json
View File

14
unilabos/app/main.py
View File

@@ -10,8 +10,6 @@ from copy import deepcopy
import yaml
from unilabos.resources.graphio import tree_to_list
# 首先添加项目根目录到路径
current_dir = os.path.dirname(os.path.abspath(__file__))
unilabos_dir = os.path.dirname(os.path.dirname(current_dir))
@@ -146,19 +144,19 @@ def main():
else read_graphml(args_dict["graph"])
)
devices_and_resources = dict_from_graph(graph_res.physical_setup_graph)
# args_dict["resources_config"] = initialize_resources(list(deepcopy(devices_and_resources).values()))
args_dict["resources_config"] = list(devices_and_resources.values())
args_dict["resources_config"] = initialize_resources(list(deepcopy(devices_and_resources).values()))
args_dict["devices_config"] = dict_to_nested_dict(deepcopy(devices_and_resources), devices_only=False)
# args_dict["resources_config"] = dict_to_tree(devices_and_resources, devices_only=False)
args_dict["graph"] = graph_res.physical_setup_graph
else:
if args_dict["devices"] is None or args_dict["resources"] is None:
print_status("Either graph or devices and resources must be provided.", "error")
sys.exit(1)
args_dict["devices_config"] = json.load(open(args_dict["devices"], encoding="utf-8"))
# args_dict["resources_config"] = initialize_resources(
# list(json.load(open(args_dict["resources"], encoding="utf-8")).values())
# )
args_dict["resources_config"] = list(json.load(open(args_dict["resources"], encoding="utf-8")).values())
args_dict["resources_config"] = initialize_resources(
list(json.load(open(args_dict["resources"], encoding="utf-8")).values())
)
print_status(f"{len(args_dict['resources_config'])} Resources loaded:", "info")
for i in args_dict["resources_config"]:

9
unilabos/app/mq.py
View File

@@ -1,7 +1,6 @@
import json
import time
import traceback
from typing import Optional
import uuid
import paho.mqtt.client as mqtt
@@ -162,14 +161,12 @@ class MQTTClient:
status = {"data": device_status.get(device_id, {}), "device_id": device_id}
address = f"labs/{MQConfig.lab_id}/devices/"
self.client.publish(address, json.dumps(status), qos=2)
logger.debug(f"Device status published: address: {address}, {status}")
logger.critical(f"Device status published: address: {address}, {status}")
def publish_job_status(self, feedback_data: dict, job_id: str, status: str, return_info: Optional[str] = None):
def publish_job_status(self, feedback_data: dict, job_id: str, status: str):
if self.mqtt_disable:
return
if return_info is None:
return_info = "{}"
jobdata = {"job_id": job_id, "data": feedback_data, "status": status, "return_info": return_info}
jobdata = {"job_id": job_id, "data": feedback_data, "status": status}
self.client.publish(f"labs/{MQConfig.lab_id}/job/list/", json.dumps(jobdata), qos=2)
def publish_registry(self, device_id: str, device_info: dict):

10
unilabos/app/web/client.py
View File

@@ -30,18 +30,18 @@ class HTTPClient:
self.auth = MQConfig.lab_id
info(f"HTTPClient 初始化完成: remote_addr={self.remote_addr}")
def resource_add(self, resources: List[Dict[str, Any]], database_process_later:bool) -> requests.Response:
def resource_add(self, resources: List[Dict[str, Any]]) -> requests.Response:
"""
添加资源
Args:
resources: 要添加的资源列表
database_process_later: 后台处理资源
Returns:
Response: API响应对象
"""
response = requests.post(
f"{self.remote_addr}/lab/resource/?database_process_later={1 if database_process_later else 0}",
f"{self.remote_addr}/lab/resource/",
json=resources,
headers={"Authorization": f"lab {self.auth}"},
timeout=5,
@@ -60,7 +60,7 @@ class HTTPClient:
Dict: 返回的资源数据
"""
response = requests.get(
f"{self.remote_addr}/lab/resource/?edge_format=1",
f"{self.remote_addr}/lab/resource/",
params={"id": id, "with_children": with_children},
headers={"Authorization": f"lab {self.auth}"},
timeout=5,
@@ -96,7 +96,7 @@ class HTTPClient:
Response: API响应对象
"""
response = requests.patch(
f"{self.remote_addr}/lab/resource/batch_update/?edge_format=1",
f"{self.remote_addr}/lab/resource/batch_update/",
json=resources,
headers={"Authorization": f"lab {self.auth}"},
timeout=5,

412
unilabos/compile/pump_protocol.py
View File

@@ -2,42 +2,17 @@ import numpy as np
import networkx as nx
def is_integrated_pump(node_name):
return "pump" in node_name and "valve" in node_name
def find_connected_pump(G, valve_node):
for neighbor in G.neighbors(valve_node):
if "pump" in G.nodes[neighbor]["class"]:
return neighbor
raise ValueError(f"未找到与阀 {valve_node} 唯一相连的泵节点")
def build_pump_valve_maps(G, pump_backbone):
pumps_from_node = {}
valve_from_node = {}
for node in pump_backbone:
if is_integrated_pump(node):
pumps_from_node[node] = node
valve_from_node[node] = node
else:
pump_node = find_connected_pump(G, node)
pumps_from_node[node] = pump_node
valve_from_node[node] = node
return pumps_from_node, valve_from_node
def generate_pump_protocol(
G: nx.DiGraph,
from_vessel: str,
to_vessel: str,
volume: float,
flowrate: float = 0.5,
transfer_flowrate: float = 0,
G: nx.DiGraph,
from_vessel: str,
to_vessel: str,
volume: float,
flowrate: float = 0.5,
transfer_flowrate: float = 0,
) -> list[dict]:
"""
生成泵操作的动作序列。
:param G: 有向图, 节点为容器和注射泵, 边为流体管道, A→B边的属性为管道接A端的阀门位置
:param from_vessel: 容器A
:param to_vessel: 容器B
@@ -46,137 +21,194 @@ def generate_pump_protocol(
:param transfer_flowrate: 泵骨架中转移流速(若不指定,默认与注入流速相同)
:return: 泵操作的动作序列
"""
# 生成泵操作的动作序列
pump_action_sequence = []
nodes = G.nodes(data=True)
# 从from_vessel到to_vessel的最短路径
shortest_path = nx.shortest_path(G, source=from_vessel, target=to_vessel)
print(shortest_path)
# 检查节点是否存在
if from_vessel not in G.nodes:
print(f"Warning: Source vessel '{from_vessel}' not found in graph. Skipping.")
return []
if to_vessel not in G.nodes:
print(f"Warning: Target vessel '{to_vessel}' not found in graph. Skipping.")
return []
# 检查是否存在路径
try:
shortest_path = nx.shortest_path(G, source=from_vessel, target=to_vessel)
except nx.NetworkXNoPath:
print(f"Warning: No path from '{from_vessel}' to '{to_vessel}'. Skipping.")
return []
except nx.NodeNotFound as e:
print(f"Warning: Node not found: {e}. Skipping.")
return []
print(f"Shortest path: {shortest_path}")
pump_backbone = shortest_path
if not from_vessel.startswith("pump"):
pump_backbone = pump_backbone[1:]
if not to_vessel.startswith("pump"):
pump_backbone = pump_backbone[:-1]
print(f"Pump backbone: {pump_backbone}")
# 修复检查pump_backbone是否为空
if not pump_backbone:
print(f"Warning: No pumps found in path from '{from_vessel}' to '{to_vessel}'. Skipping.")
return []
if transfer_flowrate == 0:
transfer_flowrate = flowrate
pumps_from_node, valve_from_node = build_pump_valve_maps(G, pump_backbone)
min_transfer_volume = min([nodes[pumps_from_node[node]]["config"]["max_volume"] for node in pump_backbone])
# 修复:正确访问节点数据
pump_max_volumes = []
for pump in pump_backbone:
# 直接使用 G.nodes[pump] 来访问节点数据
pump_data = G.nodes[pump] if pump in G.nodes else {}
# 尝试多种可能的键名,并提供默认值
max_vol = pump_data.get('max_volume') or pump_data.get('max_vol') or pump_data.get('volume')
if max_vol is None:
# 如果是设备节点尝试从config中获取
config = pump_data.get('config', {})
max_vol = config.get('max_volume', 25.0)
pump_max_volumes.append(float(max_vol))
if pump_max_volumes:
min_transfer_volume = min(pump_max_volumes)
else:
min_transfer_volume = 25.0 # 默认值
repeats = int(np.ceil(volume / min_transfer_volume))
if repeats > 1 and (from_vessel.startswith("pump") or to_vessel.startswith("pump")):
raise ValueError("Cannot transfer volume larger than min_transfer_volume between two pumps.")
volume_left = volume
# 生成泵操作的动作序列
for i in range(repeats):
# 单泵依次执行阀指令、活塞指令,将液体吸入与之相连的第一台泵
if not from_vessel.startswith("pump"):
pump_action_sequence.extend([
{
"device_id": valve_from_node[pump_backbone[0]],
"action_name": "set_valve_position",
"action_kwargs": {
"command": G.get_edge_data(pump_backbone[0], from_vessel)["port"][pump_backbone[0]]
if not from_vessel.startswith("pump") and pump_backbone:
# 修复:添加边缘数据检查
edge_data = G.get_edge_data(pump_backbone[0], from_vessel)
if edge_data and "port" in edge_data:
pump_action_sequence.extend([
{
"device_id": pump_backbone[0],
"action_name": "set_valve_position",
"action_kwargs": {
"command": edge_data["port"][pump_backbone[0]]
}
},
{
"device_id": pump_backbone[0],
"action_name": "set_position",
"action_kwargs": {
"position": float(min(volume_left, min_transfer_volume)),
"max_velocity": transfer_flowrate
}
}
},
{
"device_id": pumps_from_node[pump_backbone[0]],
"action_name": "set_position",
"action_kwargs": {
"position": float(min(volume_left, min_transfer_volume)),
"max_velocity": transfer_flowrate
])
pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 5}})
else:
print(f"Warning: No edge data found between {pump_backbone[0]} and {from_vessel}")
# 修复检查pump_backbone长度避免多泵操作时出错
if len(pump_backbone) > 1:
for pumpA, pumpB in zip(pump_backbone[:-1], pump_backbone[1:]):
# 相邻两泵同时切换阀门至连通位置
edge_AB = G.get_edge_data(pumpA, pumpB)
edge_BA = G.get_edge_data(pumpB, pumpA)
if edge_AB and "port" in edge_AB and edge_BA and "port" in edge_BA:
pump_action_sequence.append([
{
"device_id": pumpA,
"action_name": "set_valve_position",
"action_kwargs": {
"command": edge_AB["port"][pumpA]
}
},
{
"device_id": pumpB,
"action_name": "set_valve_position",
"action_kwargs": {
"command": edge_BA["port"][pumpB],
}
}
}
])
pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 5}})
for nodeA, nodeB in zip(pump_backbone[:-1], pump_backbone[1:]):
# 相邻两泵同时切换阀门至连通位置
pump_action_sequence.append([
{
"device_id": valve_from_node[nodeA],
"action_name": "set_valve_position",
"action_kwargs": {
"command": G.get_edge_data(nodeA, nodeB)["port"][nodeA]
])
# 相邻两泵液体转移泵A排出液体泵B吸入液体
pump_action_sequence.append([
{
"device_id": pumpA,
"action_name": "set_position",
"action_kwargs": {
"position": 0.0,
"max_velocity": transfer_flowrate
}
},
{
"device_id": pumpB,
"action_name": "set_position",
"action_kwargs": {
"position": float(min(volume_left, min_transfer_volume)),
"max_velocity": transfer_flowrate
}
}
},
{
"device_id": valve_from_node[nodeB],
"action_name": "set_valve_position",
"action_kwargs": {
"command": G.get_edge_data(nodeB, nodeA)["port"][nodeB],
}
}
])
# 相邻两泵液体转移泵A排出液体泵B吸入液体
pump_action_sequence.append([
{
"device_id": pumps_from_node[nodeA],
"action_name": "set_position",
"action_kwargs": {
"position": 0.0,
"max_velocity": transfer_flowrate
}
},
{
"device_id": pumps_from_node[nodeB],
"action_name": "set_position",
"action_kwargs": {
"position": float(min(volume_left, min_transfer_volume)),
"max_velocity": transfer_flowrate
}
}
])
pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 5}})
if not to_vessel.startswith("pump"):
])
pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 5}})
else:
print(f"Warning: No edge data found between {pumpA} and {pumpB}")
if not to_vessel.startswith("pump") and pump_backbone:
# 单泵依次执行阀指令、活塞指令将最后一台泵液体缓慢加入容器B
pump_action_sequence.extend([
{
"device_id": valve_from_node[pump_backbone[-1]],
"action_name": "set_valve_position",
"action_kwargs": {
"command": G.get_edge_data(pump_backbone[-1], to_vessel)["port"][pump_backbone[-1]]
edge_data = G.get_edge_data(pump_backbone[-1], to_vessel)
if edge_data and "port" in edge_data:
pump_action_sequence.extend([
{
"device_id": pump_backbone[-1],
"action_name": "set_valve_position",
"action_kwargs": {
"command": edge_data["port"][pump_backbone[-1]]
}
},
{
"device_id": pump_backbone[-1],
"action_name": "set_position",
"action_kwargs": {
"position": 0.0,
"max_velocity": flowrate
}
}
},
{
"device_id": pumps_from_node[pump_backbone[-1]],
"action_name": "set_position",
"action_kwargs": {
"position": 0.0,
"max_velocity": flowrate
}
}
])
pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 5}})
])
pump_action_sequence.append({"action_name": "wait", "action_kwargs": {"time": 5}})
else:
print(f"Warning: No edge data found between {pump_backbone[-1]} and {to_vessel}")
volume_left -= min_transfer_volume
return pump_action_sequence
# Pump protocol compilation
def generate_pump_protocol_with_rinsing(
G: nx.DiGraph,
from_vessel: str,
to_vessel: str,
volume: float,
amount: str = "",
time: float = 0,
viscous: bool = False,
rinsing_solvent: str = "air",
rinsing_volume: float = 5.0,
rinsing_repeats: int = 2,
solid: bool = False,
flowrate: float = 2.5,
transfer_flowrate: float = 0.5,
G: nx.DiGraph,
from_vessel: str,
to_vessel: str,
volume: float,
amount: str = "",
time: float = 0,
viscous: bool = False,
rinsing_solvent: str = "air",
rinsing_volume: float = 5.0,
rinsing_repeats: int = 2,
solid: bool = False,
flowrate: float = 2.5,
transfer_flowrate: float = 0.5,
) -> list[dict]:
"""
Generates a pump protocol for transferring a specified volume between vessels, including rinsing steps with a chosen solvent. This function constructs a sequence of pump actions based on the provided parameters and the shortest path in a directed graph.
Args:
G (nx.DiGraph): The directed graph representing the vessels and connections. 有向图, 节点为容器和注射泵, 边为流体管道, A→B边的属性为管道接A端的阀门位置
from_vessel (str): The name of the vessel to transfer from.
@@ -191,64 +223,96 @@ def generate_pump_protocol_with_rinsing(
solid (bool, optional): Indicates if the transfer involves a solid (default is False).
flowrate (float, optional): The flow rate for the transfer (default is 2.5). 最终注入容器B时的流速
transfer_flowrate (float, optional): The flow rate for the transfer action (default is 0.5). 泵骨架中转移流速(若不指定,默认与注入流速相同)
Returns:
list[dict]: A sequence of pump actions to be executed for the transfer and rinsing process. 泵操作的动作序列.
Raises:
AssertionError: If the number of rinsing solvents does not match the number of rinsing repeats.
Examples:
pump_protocol = generate_pump_protocol_with_rinsing(G, "vessel_A", "vessel_B", 0.1, rinsing_solvent="water")
"""
air_vessel = "flask_air"
waste_vessel = f"waste_workup"
shortest_path = nx.shortest_path(G, source=from_vessel, target=to_vessel)
pump_backbone = shortest_path[1: -1]
nodes = G.nodes(data=True)
pumps_from_node, valve_from_node = build_pump_valve_maps(G, pump_backbone)
min_transfer_volume = min([nodes[pumps_from_node[node]]["config"]["max_volume"] for node in pump_backbone])
# 修复:使用实际存在的节点名称
air_vessel = "flask_air" # 这个在你的配置中存在
# 寻找合适的废料容器,如果没有找到则使用空的容器作为替代
waste_vessel = None
available_vessels = [node for node in G.nodes if node.startswith("flask_") and node != air_vessel]
if available_vessels:
# 使用第一个可用的容器作为废料容器
waste_vessel = available_vessels[0]
print(f"Using {waste_vessel} as waste vessel")
else:
waste_vessel = "flask_1" # 备用选择
# 修复:添加路径检查
try:
shortest_path = nx.shortest_path(G, source=from_vessel, target=to_vessel)
pump_backbone = shortest_path[1: -1]
except (nx.NetworkXNoPath, nx.NodeNotFound) as e:
print(f"Warning: Cannot find path from {from_vessel} to {to_vessel}: {e}")
return []
# 修复:正确访问节点数据
pump_max_volumes = []
for pump in pump_backbone:
# 直接使用 G.nodes[pump] 来访问节点数据
pump_data = G.nodes[pump] if pump in G.nodes else {}
# 尝试多种可能的键名,并提供默认值
max_vol = pump_data.get('max_volume') or pump_data.get('max_vol') or pump_data.get('volume')
if max_vol is None:
# 如果是设备节点尝试从config中获取
config = pump_data.get('config', {})
max_vol = config.get('max_volume', 25.0)
pump_max_volumes.append(float(max_vol))
if pump_max_volumes:
min_transfer_volume = float(min(pump_max_volumes))
else:
min_transfer_volume = 25.0 # 默认值
if time != 0:
flowrate = transfer_flowrate = volume / time
pump_action_sequence = generate_pump_protocol(G, from_vessel, to_vessel, float(volume), flowrate, transfer_flowrate)
if rinsing_solvent != "air" and rinsing_solvent != "":
# 修复:只在需要清洗且相关节点存在时才执行清洗步骤
if rinsing_solvent != "air" and pump_backbone:
if "," in rinsing_solvent:
rinsing_solvents = rinsing_solvent.split(",")
assert len(
rinsing_solvents) == rinsing_repeats, "Number of rinsing solvents must match number of rinsing repeats."
assert len(rinsing_solvents) == rinsing_repeats, "Number of rinsing solvents must match number of rinsing repeats."
else:
rinsing_solvents = [rinsing_solvent] * rinsing_repeats
for rinsing_solvent in rinsing_solvents:
solvent_vessel = f"flask_{rinsing_solvent}"
# 清洗泵
pump_action_sequence.extend(
generate_pump_protocol(G, solvent_vessel, pump_backbone[0], min_transfer_volume, flowrate,
transfer_flowrate) +
generate_pump_protocol(G, pump_backbone[0], pump_backbone[-1], min_transfer_volume, flowrate,
transfer_flowrate) +
generate_pump_protocol(G, pump_backbone[-1], waste_vessel, min_transfer_volume, flowrate,
transfer_flowrate)
)
# 如果转移的是溶液,第一种冲洗溶剂请选用溶液的溶剂,稀释泵内、转移管道内的溶液。后续冲洗溶剂不需要此操作。
if rinsing_solvent == rinsing_solvents[0]:
# 检查溶剂容器是否存在
if solvent_vessel not in G.nodes:
print(f"Warning: Solvent vessel '{solvent_vessel}' not found in graph. Skipping rinsing step.")
continue
# 清洗泵 - 只有当所有必需的节点都存在且pump_backbone不为空时才执行
if pump_backbone and len(pump_backbone) > 0 and waste_vessel in G.nodes:
pump_action_sequence.extend(
generate_pump_protocol(G, solvent_vessel, from_vessel, rinsing_volume, flowrate, transfer_flowrate))
pump_action_sequence.extend(
generate_pump_protocol(G, solvent_vessel, to_vessel, rinsing_volume, flowrate, transfer_flowrate))
pump_action_sequence.extend(
generate_pump_protocol(G, air_vessel, solvent_vessel, rinsing_volume, flowrate, transfer_flowrate))
pump_action_sequence.extend(
generate_pump_protocol(G, air_vessel, waste_vessel, rinsing_volume, flowrate, transfer_flowrate))
if rinsing_solvent != "":
pump_action_sequence.extend(
generate_pump_protocol(G, air_vessel, from_vessel, rinsing_volume, flowrate, transfer_flowrate) * 2)
pump_action_sequence.extend(
generate_pump_protocol(G, air_vessel, to_vessel, rinsing_volume, flowrate, transfer_flowrate) * 2)
generate_pump_protocol(G, solvent_vessel, pump_backbone[0], min_transfer_volume, flowrate, transfer_flowrate) +
generate_pump_protocol(G, pump_backbone[0], pump_backbone[-1], min_transfer_volume, flowrate, transfer_flowrate) +
generate_pump_protocol(G, pump_backbone[-1], waste_vessel, min_transfer_volume, flowrate, transfer_flowrate)
)
# 如果转移的是溶液,第一种冲洗溶剂请选用溶液的溶剂,稀释泵内、转移管道内的溶液。后续冲洗溶剂不需要此操作。
if rinsing_solvent == rinsing_solvents[0]:
pump_action_sequence.extend(generate_pump_protocol(G, solvent_vessel, from_vessel, rinsing_volume, flowrate, transfer_flowrate))
pump_action_sequence.extend(generate_pump_protocol(G, solvent_vessel, to_vessel, rinsing_volume, flowrate, transfer_flowrate))
pump_action_sequence.extend(generate_pump_protocol(G, air_vessel, solvent_vessel, rinsing_volume, flowrate, transfer_flowrate))
pump_action_sequence.extend(generate_pump_protocol(G, air_vessel, waste_vessel, rinsing_volume, flowrate, transfer_flowrate))
# 最后的空气清洗 - 只有当节点存在时才执行
if air_vessel in G.nodes:
pump_action_sequence.extend(generate_pump_protocol(G, air_vessel, from_vessel, rinsing_volume, flowrate, transfer_flowrate) * 2)
pump_action_sequence.extend(generate_pump_protocol(G, air_vessel, to_vessel, rinsing_volume, flowrate, transfer_flowrate) * 2)
return pump_action_sequence
# End Protocols

9
unilabos/device_mesh/devices/arm_slider/config/initial_positions.yaml
View File

@@ -1,9 +0,0 @@
# Default initial positions for full_dev's ros2_control fake system
initial_positions:
arm_base_joint: 0
arm_link_1_joint: 0
arm_link_2_joint: 0
arm_link_3_joint: 0
gripper_base_joint: 0
gripper_right_joint: 0.03

40
unilabos/device_mesh/devices/arm_slider/config/joint_limits.yaml
View File

@@ -1,40 +0,0 @@
# joint_limits.yaml allows the dynamics properties specified in the URDF to be overwritten or augmented as needed
# For beginners, we downscale velocity and acceleration limits.
# You can always specify higher scaling factors (<= 1.0) in your motion requests. # Increase the values below to 1.0 to always move at maximum speed.
default_velocity_scaling_factor: 0.1
default_acceleration_scaling_factor: 0.1
# Specific joint properties can be changed with the keys [max_position, min_position, max_velocity, max_acceleration]
# Joint limits can be turned off with [has_velocity_limits, has_acceleration_limits]
joint_limits:
arm_base_joint:
has_velocity_limits: true
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0
arm_link_1_joint:
has_velocity_limits: true
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0
arm_link_2_joint:
has_velocity_limits: true
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0
arm_link_3_joint:
has_velocity_limits: true
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0
gripper_base_joint:
has_velocity_limits: true
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0
gripper_right_joint:
has_velocity_limits: true
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0

4
unilabos/device_mesh/devices/arm_slider/config/kinematics.yaml
View File

@@ -1,4 +0,0 @@
arm:
kinematics_solver: lma_kinematics_plugin/LMAKinematicsPlugin
kinematics_solver_search_resolution: 0.0050000000000000001
kinematics_solver_timeout: 0.0050000000000000001

56
unilabos/device_mesh/devices/arm_slider/config/macro.ros2_control.xacro
View File

@@ -1,56 +0,0 @@
<?xml version="1.0"?>
<robot xmlns:xacro="http://www.ros.org/wiki/xacro">
<xacro:macro name="arm_slider_ros2_control" params="device_name mesh_path">
<xacro:property name="initial_positions" value="${load_yaml(mesh_path + '/devices/arm_slider/config/initial_positions.yaml')['initial_positions']}"/>
<ros2_control name="${device_name}arm_slider" type="system">
<hardware>
<!-- By default, set up controllers for simulation. This won't work on real hardware -->
<plugin>mock_components/GenericSystem</plugin>
</hardware>
<joint name="${device_name}arm_base_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['arm_base_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
<joint name="${device_name}arm_link_1_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['arm_link_1_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
<joint name="${device_name}arm_link_2_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['arm_link_2_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
<joint name="${device_name}arm_link_3_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['arm_link_3_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
<joint name="${device_name}gripper_base_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['gripper_base_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
<joint name="${device_name}gripper_right_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['gripper_right_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
</ros2_control>
</xacro:macro>
</robot>

46
unilabos/device_mesh/devices/arm_slider/config/macro.srdf.xacro
View File

@@ -1,46 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--This does not replace URDF, and is not an extension of URDF.
This is a format for representing semantic information about the robot structure.
A URDF file must exist for this robot as well, where the joints and the links that are referenced are defined
-->
<robot xmlns:xacro="http://ros.org/wiki/xacro">
<xacro:macro name="arm_slider_srdf" params="device_name">
<!--GROUPS: Representation of a set of joints and links. This can be useful for specifying DOF to plan for, defining arms, end effectors, etc-->
<!--LINKS: When a link is specified, the parent joint of that link (if it exists) is automatically included-->
<!--JOINTS: When a joint is specified, the child link of that joint (which will always exist) is automatically included-->
<!--CHAINS: When a chain is specified, all the links along the chain (including endpoints) are included in the group. Additionally, all the joints that are parents to included links are also included. This means that joints along the chain and the parent joint of the base link are included in the group-->
<!--SUBGROUPS: Groups can also be formed by referencing to already defined group names-->
<group name="${device_name}arm">
<chain base_link="${device_name}arm_slideway" tip_link="${device_name}gripper_base"/>
</group>
<group name="${device_name}arm_gripper">
<joint name="${device_name}gripper_right_joint"/>
</group>
<!--DISABLE COLLISIONS: By default it is assumed that any link of the robot could potentially come into collision with any other link in the robot. This tag disables collision checking between a specified pair of links. -->
<disable_collisions link1="${device_name}arm_base" link2="${device_name}arm_link_2" reason="Adjacent"/>
<disable_collisions link1="${device_name}arm_base" link2="${device_name}arm_link_1" reason="Adjacent"/>
<disable_collisions link1="${device_name}arm_base" link2="${device_name}arm_link_3" reason="Never"/>
<disable_collisions link1="${device_name}arm_base" link2="${device_name}arm_slideway" reason="Adjacent"/>
<disable_collisions link1="${device_name}arm_link_1" link2="${device_name}arm_link_2" reason="Adjacent"/>
<disable_collisions link1="${device_name}arm_link_1" link2="${device_name}arm_link_3" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_1" link2="${device_name}arm_slideway" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_1" link2="${device_name}gripper_base" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_1" link2="${device_name}gripper_left" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_1" link2="${device_name}gripper_right" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_2" link2="${device_name}arm_link_3" reason="Adjacent"/>
<disable_collisions link1="${device_name}arm_link_2" link2="${device_name}arm_slideway" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_2" link2="${device_name}gripper_base" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_2" link2="${device_name}gripper_left" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_2" link2="${device_name}gripper_right" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_3" link2="${device_name}arm_slideway" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_3" link2="${device_name}gripper_base" reason="Adjacent"/>
<disable_collisions link1="${device_name}arm_link_3" link2="${device_name}gripper_left" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_3" link2="${device_name}gripper_right" reason="Never"/>
<disable_collisions link1="${device_name}arm_slideway" link2="${device_name}gripper_base" reason="Never"/>
<disable_collisions link1="${device_name}arm_slideway" link2="${device_name}gripper_left" reason="Never"/>
<disable_collisions link1="${device_name}arm_slideway" link2="${device_name}gripper_right" reason="Never"/>
<disable_collisions link1="${device_name}gripper_base" link2="${device_name}gripper_left" reason="Adjacent"/>
<disable_collisions link1="${device_name}gripper_base" link2="${device_name}gripper_right" reason="Adjacent"/>
<disable_collisions link1="${device_name}gripper_left" link2="${device_name}gripper_right" reason="Never"/>
</xacro:macro>
</robot>

14
unilabos/device_mesh/devices/arm_slider/config/move_group.json
View File

@@ -1,14 +0,0 @@
{
"arm":
{
"joint_names": [
"arm_base_joint",
"arm_link_1_joint",
"arm_link_2_joint",
"arm_link_3_joint",
"gripper_base_joint"
],
"base_link_name": "device_link",
"end_effector_name": "gripper_base"
}
}

29
unilabos/device_mesh/devices/arm_slider/config/moveit_controllers.yaml
View File

@@ -1,29 +0,0 @@
# MoveIt uses this configuration for controller management
moveit_controller_manager: moveit_simple_controller_manager/MoveItSimpleControllerManager
moveit_simple_controller_manager:
controller_names:
- arm_controller
- gripper_controller
arm_controller:
type: FollowJointTrajectory
action_ns: follow_joint_trajectory
default: true
joints:
- arm_base_joint
- arm_link_1_joint
- arm_link_2_joint
- arm_link_3_joint
- gripper_base_joint
action_ns: follow_joint_trajectory
default: true
gripper_controller:
type: FollowJointTrajectory
action_ns: follow_joint_trajectory
default: true
joints:
- gripper_right_joint
action_ns: follow_joint_trajectory
default: true

2
unilabos/device_mesh/devices/arm_slider/config/moveit_planners.yaml
View File

@@ -1,2 +0,0 @@
planner_configs:
- ompl_interface/OMPLPlanner

6
unilabos/device_mesh/devices/arm_slider/config/pilz_cartesian_limits.yaml
View File

@@ -1,6 +0,0 @@
# Limits for the Pilz planner
cartesian_limits:
max_trans_vel: 1.0
max_trans_acc: 2.25
max_trans_dec: -5.0
max_rot_vel: 1.57

39
unilabos/device_mesh/devices/arm_slider/config/ros2_controllers.yaml
View File

@@ -1,39 +0,0 @@
# This config file is used by ros2_control
controller_manager:
ros__parameters:
update_rate: 100 # Hz
arm_controller:
type: joint_trajectory_controller/JointTrajectoryController
gripper_controller:
type: joint_trajectory_controller/JointTrajectoryController
joint_state_broadcaster:
type: joint_state_broadcaster/JointStateBroadcaster
arm_controller:
ros__parameters:
joints:
- arm_base_joint
- arm_link_1_joint
- arm_link_2_joint
- arm_link_3_joint
- gripper_base_joint
command_interfaces:
- position
state_interfaces:
- position
- velocity
gripper_controller:
ros__parameters:
joints:
- gripper_right_joint
command_interfaces:
- position
state_interfaces:
- position
- velocity

44
unilabos/device_mesh/devices/arm_slider/joint_limit.yaml
View File

@@ -1,44 +0,0 @@
joint_limits:
arm_base_joint:
effort: 50
velocity: 1.0
lower: 0
upper: 1.5
arm_link_1_joint:
effort: 50
velocity: 1.0
lower: 0
upper: 0.6
arm_link_2_joint:
effort: 50
velocity: 1.0
lower: !degrees -95
upper: !degrees 95
arm_link_3_joint:
effort: 50
velocity: 1.0
lower: !degrees -195
upper: !degrees 195
gripper_base_joint:
effort: 50
velocity: 1.0
lower: !degrees -95
upper: !degrees 95
gripper_right_joint:
effort: 50
velocity: 1.0
lower: 0
upper: 0.03
gripper_left_joint:
effort: 50
velocity: 1.0
lower: 0
upper: 0.03

293
unilabos/device_mesh/devices/arm_slider/macro_device.xacro
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@@ -1,293 +0,0 @@
<?xml version="1.0" ?>
<robot xmlns:xacro="http://ros.org/wiki/xacro" name="arm_slider">
<xacro:macro name="arm_slider" params="mesh_path:='' parent_link:='' station_name:='' device_name:='' x:=0 y:=0 z:=0 rx:=0 ry:=0 r:=0">
<!-- Read .yaml files from disk, load content into properties -->
<xacro:property name= "joint_limit_parameters" value="${xacro.load_yaml(mesh_path + '/devices/arm_slider/joint_limit.yaml')}"/>
<!-- Extract subsections from yaml dictionaries -->
<xacro:property name= "sec_limits" value="${joint_limit_parameters['joint_limits']}"/>
<joint name="${station_name}${device_name}base_link_joint" type="fixed">
<origin xyz="${x} ${y} ${z}" rpy="${rx} ${ry} ${r}" />
<parent link="${parent_link}"/>
<child link="${station_name}${device_name}device_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name="${station_name}${device_name}device_link"/>
<joint name="${station_name}${device_name}device_link_joint" type="fixed">
<origin xyz="0 0 0" rpy="0 0 0" />
<parent link="${station_name}${device_name}device_link"/>
<child link="${station_name}${device_name}arm_slideway"/>
<axis xyz="0 0 0"/>
</joint>
<!-- JOINTS LIMIT PARAMETERS -->
<xacro:property name="limit_arm_base_joint" value="${sec_limits['arm_base_joint']}" />
<xacro:property name="limit_arm_link_1_joint" value="${sec_limits['arm_link_1_joint']}" />
<xacro:property name="limit_arm_link_2_joint" value="${sec_limits['arm_link_2_joint']}" />
<xacro:property name="limit_arm_link_3_joint" value="${sec_limits['arm_link_3_joint']}" />
<xacro:property name="limit_gripper_base_joint" value="${sec_limits['gripper_base_joint']}" />
<xacro:property name="limit_gripper_right_joint" value="${sec_limits['gripper_right_joint']}"/>
<xacro:property name="limit_gripper_left_joint" value="${sec_limits['gripper_left_joint']}" />
<link name="${station_name}${device_name}arm_slideway">
<inertial>
<origin rpy="0 0 0" xyz="-0.913122246354019 -0.00141851388483838 0.0416079172839272"/>
<mass value="13.6578107753627"/>
<inertia ixx="0.0507627640890578" ixy="0.0245166532634714" ixz="-0.0112656803168519" iyy="5.2550852314372" iyz="0.000302974193920367" izz="5.26892263696439"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/arm_slideway.STL"/>
</geometry>
<material name="">
<color rgba="0.752941176470588 0.752941176470588 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/arm_slideway.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}arm_base_joint" type="prismatic">
<origin rpy="0 0 0" xyz="0.307 0 0.1225"/>
<parent link="${station_name}${device_name}arm_slideway"/>
<child link="${station_name}${device_name}arm_base"/>
<axis xyz="1 0 0"/>
<limit
effort="${limit_arm_base_joint['effort']}"
lower="${limit_arm_base_joint['lower']}"
upper="${limit_arm_base_joint['upper']}"
velocity="${limit_arm_base_joint['velocity']}"/>
</joint>
<link name="${station_name}${device_name}arm_base">
<inertial>
<origin rpy="0 0 0" xyz="1.48458338655733E-06 -0.00831873687136486 0.351728466012153"/>
<mass value="16.1341586205194"/>
<inertia ixx="0.54871651759045" ixy="7.65476367433116E-07" ixz="2.0515139488158E-07" iyy="0.55113098995396" iyz="-5.13261457726806E-07" izz="0.0619081867727048"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/arm_base.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/arm_base.STL"/>
</geometry>
</collision>
</link>
<link name="${station_name}${device_name}arm_link_1">
<inertial>
<origin rpy="0 0 0" xyz="0 -0.0102223856758559 0.0348505130779933"/>
<mass value="0.828629227096429"/>
<inertia ixx="0.00119703598787112" ixy="-2.46083048832131E-19" ixz="1.43864352731199E-19" iyy="0.00108355785790042" iyz="1.88092240278693E-06" izz="0.00160914803816438"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/arm_link_1.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/arm_link_1.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}arm_link_1_joint" type="prismatic">
<origin rpy="0 0 0" xyz="0 0.1249 0.15"/>
<parent link="${station_name}${device_name}arm_base"/>
<child link="${station_name}${device_name}arm_link_1"/>
<axis xyz="0 0 1"/>
<limit
effort="${limit_arm_link_1_joint['effort']}"
lower="${limit_arm_link_1_joint['lower']}"
upper="${limit_arm_link_1_joint['upper']}"
velocity="${limit_arm_link_1_joint['velocity']}"/>
</joint>
<link name="${station_name}${device_name}arm_link_2">
<inertial>
<origin rpy="0 0 0" xyz="-3.33066907387547E-16 0.100000000000003 -0.0325000000000004"/>
<mass value="2.04764861029349"/>
<inertia ixx="0.0150150059448827" ixy="-1.28113733272213E-17" ixz="6.7561418872754E-19" iyy="0.00262980501315445" iyz="7.44451536320152E-18" izz="0.0162030186138787"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/arm_link_2.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/arm_link_2.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}arm_link_2_joint" type="revolute">
<origin rpy="0 0 0" xyz="0 0 0"/>
<parent link="${station_name}${device_name}arm_link_1"/>
<child link="${station_name}${device_name}arm_link_2"/>
<axis xyz="0 0 1"/>
<limit
effort="${limit_arm_link_2_joint['effort']}"
lower="${limit_arm_link_2_joint['lower']}"
upper="${limit_arm_link_2_joint['upper']}"
velocity="${limit_arm_link_2_joint['velocity']}"/>
</joint>
<link name="${station_name}${device_name}arm_link_3">
<inertial>
<origin rpy="0 0 0" xyz="4.77395900588817E-15 0.0861257730831348 -0.0227999999999999"/>
<mass value="1.19870202871083"/>
<inertia ixx="0.00780783223764428" ixy="7.26567379579506E-18" ixz="1.02766851352053E-18" iyy="0.00109642607170081" iyz="-9.73775385060067E-18" izz="0.0084997384510058"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/arm_link_3.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/arm_link_3.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}arm_link_3_joint" type="revolute">
<origin rpy="0 0 0" xyz="0 0.2 -0.0647"/>
<parent link="${station_name}${device_name}arm_link_2"/>
<child link="${station_name}${device_name}arm_link_3"/>
<axis xyz="0 0 1"/>
<limit
effort="${limit_arm_link_3_joint['effort']}"
lower="${limit_arm_link_3_joint['lower']}"
upper="${limit_arm_link_3_joint['upper']}"
velocity="${limit_arm_link_3_joint['velocity']}"/>
</joint>
<link name="${station_name}${device_name}gripper_base">
<inertial>
<origin rpy="0 0 0" xyz="-6.05365748571618E-05 0.0373027483464434 -0.0264392017534612"/>
<mass value="0.511925198394943"/>
<inertia ixx="0.000640463815051467" ixy="1.08132229596356E-06" ixz="7.165124649009E-07" iyy="0.000552164156414554" iyz="9.80000237347941E-06" izz="0.00103553457812823"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/gripper_base.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/gripper_base.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}gripper_base_joint" type="revolute">
<origin rpy="0 0 0" xyz="0 0.2 -0.045"/>
<parent link="${station_name}${device_name}arm_link_3"/>
<child link="${station_name}${device_name}gripper_base"/>
<axis xyz="0 0 1"/>
<limit
effort="${limit_gripper_base_joint['effort']}"
lower="${limit_gripper_base_joint['lower']}"
upper="${limit_gripper_base_joint['upper']}"
velocity="${limit_gripper_base_joint['velocity']}"/>
</joint>
<link name="${station_name}${device_name}gripper_right">
<inertial>
<origin rpy="0 0 0" xyz="0.0340005471193899 0.0339655085140826 -0.0325252119823062"/>
<mass value="0.013337481136229"/>
<inertia ixx="2.02427962974094E-05" ixy="1.78442722292145E-06" ixz="-4.36485961300289E-07" iyy="1.4816483393622E-06" iyz="2.60539468115799E-06" izz="1.96629693098755E-05"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/gripper_right.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/gripper_right.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}gripper_right_joint" type="prismatic">
<origin rpy="0 0 0" xyz="0 0.0942 -0.022277"/>
<parent link="${station_name}${device_name}gripper_base"/>
<child link="${station_name}${device_name}gripper_right"/>
<axis xyz="1 0 0"/>
<limit
effort="${limit_gripper_right_joint['effort']}"
lower="${limit_gripper_right_joint['lower']}"
upper="${limit_gripper_right_joint['upper']}"
velocity="${limit_gripper_right_joint['velocity']}"/>
</joint>
<link name="${station_name}${device_name}gripper_left">
<inertial>
<origin rpy="0 3.1416 0" xyz="-0.0340005471193521 0.0339655081029604 -0.0325252119827364"/>
<mass value="0.0133374811362292"/>
<inertia ixx="2.02427962974094E-05" ixy="-1.78442720812615E-06" ixz="4.36485961300305E-07" iyy="1.48164833936224E-06" iyz="2.6053946859901E-06" izz="1.96629693098755E-05"/>
</inertial>
<visual>
<origin rpy="0 3.1416 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/gripper_left.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 3.1416 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/arm_slider/meshes/gripper_left.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}gripper_left_joint" type="prismatic">
<origin rpy="0 3.1416 0" xyz="0 0.0942 -0.022277"/>
<parent link="${station_name}${device_name}gripper_base"/>
<child link="${station_name}${device_name}gripper_left"/>
<axis xyz="1 0 0"/>
<limit
effort="${limit_gripper_left_joint['effort']}"
lower="${limit_gripper_left_joint['lower']}"
upper="${limit_gripper_left_joint['upper']}"
velocity="${limit_gripper_left_joint['velocity']}"/>
<mimic joint="${station_name}${device_name}gripper_right_joint" multiplier="1" />
</joint>
</xacro:macro>
</robot>

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9
unilabos/device_mesh/devices/benyao_arm/config/initial_positions.yaml
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# Default initial positions for full_dev's ros2_control fake system
initial_positions:
arm_base_joint: 0
arm_link_1_joint: 0
arm_link_2_joint: 0
arm_link_3_joint: 0
gripper_base_joint: 0
gripper_right_joint: 0.03

40
unilabos/device_mesh/devices/benyao_arm/config/joint_limits.yaml
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# joint_limits.yaml allows the dynamics properties specified in the URDF to be overwritten or augmented as needed
# For beginners, we downscale velocity and acceleration limits.
# You can always specify higher scaling factors (<= 1.0) in your motion requests. # Increase the values below to 1.0 to always move at maximum speed.
default_velocity_scaling_factor: 0.1
default_acceleration_scaling_factor: 0.1
# Specific joint properties can be changed with the keys [max_position, min_position, max_velocity, max_acceleration]
# Joint limits can be turned off with [has_velocity_limits, has_acceleration_limits]
joint_limits:
arm_base_joint:
has_velocity_limits: true
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0
arm_link_1_joint:
has_velocity_limits: true
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0
arm_link_2_joint:
has_velocity_limits: true
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0
arm_link_3_joint:
has_velocity_limits: true
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0
gripper_base_joint:
has_velocity_limits: true
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0
gripper_right_joint:
has_velocity_limits: true
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0

4
unilabos/device_mesh/devices/benyao_arm/config/kinematics.yaml
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@@ -1,4 +0,0 @@
arm:
kinematics_solver: lma_kinematics_plugin/LMAKinematicsPlugin
kinematics_solver_search_resolution: 0.0050000000000000001
kinematics_solver_timeout: 0.0050000000000000001

56
unilabos/device_mesh/devices/benyao_arm/config/macro.ros2_control.xacro
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@@ -1,56 +0,0 @@
<?xml version="1.0"?>
<robot xmlns:xacro="http://www.ros.org/wiki/xacro">
<xacro:macro name="benyao_arm_ros2_control" params="device_name mesh_path">
<xacro:property name="initial_positions" value="${load_yaml(mesh_path + '/devices/benyao_arm/config/initial_positions.yaml')['initial_positions']}"/>
<ros2_control name="${device_name}benyao_arm" type="system">
<hardware>
<!-- By default, set up controllers for simulation. This won't work on real hardware -->
<plugin>mock_components/GenericSystem</plugin>
</hardware>
<joint name="${device_name}arm_base_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['arm_base_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
<joint name="${device_name}arm_link_1_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['arm_link_1_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
<joint name="${device_name}arm_link_2_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['arm_link_2_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
<joint name="${device_name}arm_link_3_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['arm_link_3_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
<joint name="${device_name}gripper_base_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['gripper_base_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
<joint name="${device_name}gripper_right_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['gripper_right_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
</ros2_control>
</xacro:macro>
</robot>

46
unilabos/device_mesh/devices/benyao_arm/config/macro.srdf.xacro
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@@ -1,46 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--This does not replace URDF, and is not an extension of URDF.
This is a format for representing semantic information about the robot structure.
A URDF file must exist for this robot as well, where the joints and the links that are referenced are defined
-->
<robot xmlns:xacro="http://ros.org/wiki/xacro">
<xacro:macro name="benyao_arm_srdf" params="device_name">
<!--GROUPS: Representation of a set of joints and links. This can be useful for specifying DOF to plan for, defining arms, end effectors, etc-->
<!--LINKS: When a link is specified, the parent joint of that link (if it exists) is automatically included-->
<!--JOINTS: When a joint is specified, the child link of that joint (which will always exist) is automatically included-->
<!--CHAINS: When a chain is specified, all the links along the chain (including endpoints) are included in the group. Additionally, all the joints that are parents to included links are also included. This means that joints along the chain and the parent joint of the base link are included in the group-->
<!--SUBGROUPS: Groups can also be formed by referencing to already defined group names-->
<group name="${device_name}arm">
<chain base_link="${device_name}arm_slideway" tip_link="${device_name}gripper_base"/>
</group>
<group name="${device_name}arm_gripper">
<joint name="${device_name}gripper_right_joint"/>
</group>
<!--DISABLE COLLISIONS: By default it is assumed that any link of the robot could potentially come into collision with any other link in the robot. This tag disables collision checking between a specified pair of links. -->
<disable_collisions link1="${device_name}arm_base" link2="${device_name}arm_link_2" reason="Adjacent"/>
<disable_collisions link1="${device_name}arm_base" link2="${device_name}arm_link_1" reason="Adjacent"/>
<disable_collisions link1="${device_name}arm_base" link2="${device_name}arm_link_3" reason="Never"/>
<disable_collisions link1="${device_name}arm_base" link2="${device_name}arm_slideway" reason="Adjacent"/>
<disable_collisions link1="${device_name}arm_link_1" link2="${device_name}arm_link_2" reason="Adjacent"/>
<disable_collisions link1="${device_name}arm_link_1" link2="${device_name}arm_link_3" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_1" link2="${device_name}arm_slideway" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_1" link2="${device_name}gripper_base" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_1" link2="${device_name}gripper_left" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_1" link2="${device_name}gripper_right" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_2" link2="${device_name}arm_link_3" reason="Adjacent"/>
<disable_collisions link1="${device_name}arm_link_2" link2="${device_name}arm_slideway" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_2" link2="${device_name}gripper_base" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_2" link2="${device_name}gripper_left" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_2" link2="${device_name}gripper_right" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_3" link2="${device_name}arm_slideway" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_3" link2="${device_name}gripper_base" reason="Adjacent"/>
<disable_collisions link1="${device_name}arm_link_3" link2="${device_name}gripper_left" reason="Never"/>
<disable_collisions link1="${device_name}arm_link_3" link2="${device_name}gripper_right" reason="Never"/>
<disable_collisions link1="${device_name}arm_slideway" link2="${device_name}gripper_base" reason="Never"/>
<disable_collisions link1="${device_name}arm_slideway" link2="${device_name}gripper_left" reason="Never"/>
<disable_collisions link1="${device_name}arm_slideway" link2="${device_name}gripper_right" reason="Never"/>
<disable_collisions link1="${device_name}gripper_base" link2="${device_name}gripper_left" reason="Adjacent"/>
<disable_collisions link1="${device_name}gripper_base" link2="${device_name}gripper_right" reason="Adjacent"/>
<disable_collisions link1="${device_name}gripper_left" link2="${device_name}gripper_right" reason="Never"/>
</xacro:macro>
</robot>

14
unilabos/device_mesh/devices/benyao_arm/config/move_group.json
View File

@@ -1,14 +0,0 @@
{
"arm":
{
"joint_names": [
"arm_base_joint",
"arm_link_1_joint",
"arm_link_2_joint",
"arm_link_3_joint",
"gripper_base_joint"
],
"base_link_name": "device_link",
"end_effector_name": "gripper_base"
}
}

29
unilabos/device_mesh/devices/benyao_arm/config/moveit_controllers.yaml
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@@ -1,29 +0,0 @@
# MoveIt uses this configuration for controller management
moveit_controller_manager: moveit_simple_controller_manager/MoveItSimpleControllerManager
moveit_simple_controller_manager:
controller_names:
- arm_controller
- gripper_controller
arm_controller:
type: FollowJointTrajectory
action_ns: follow_joint_trajectory
default: true
joints:
- arm_base_joint
- arm_link_1_joint
- arm_link_2_joint
- arm_link_3_joint
- gripper_base_joint
action_ns: follow_joint_trajectory
default: true
gripper_controller:
type: FollowJointTrajectory
action_ns: follow_joint_trajectory
default: true
joints:
- gripper_right_joint
action_ns: follow_joint_trajectory
default: true

2
unilabos/device_mesh/devices/benyao_arm/config/moveit_planners.yaml
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@@ -1,2 +0,0 @@
planner_configs:
- ompl_interface/OMPLPlanner

6
unilabos/device_mesh/devices/benyao_arm/config/pilz_cartesian_limits.yaml
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@@ -1,6 +0,0 @@
# Limits for the Pilz planner
cartesian_limits:
max_trans_vel: 1.0
max_trans_acc: 2.25
max_trans_dec: -5.0
max_rot_vel: 1.57

39
unilabos/device_mesh/devices/benyao_arm/config/ros2_controllers.yaml
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@@ -1,39 +0,0 @@
# This config file is used by ros2_control
controller_manager:
ros__parameters:
update_rate: 100 # Hz
arm_controller:
type: joint_trajectory_controller/JointTrajectoryController
gripper_controller:
type: joint_trajectory_controller/JointTrajectoryController
joint_state_broadcaster:
type: joint_state_broadcaster/JointStateBroadcaster
arm_controller:
ros__parameters:
joints:
- arm_base_joint
- arm_link_1_joint
- arm_link_2_joint
- arm_link_3_joint
- gripper_base_joint
command_interfaces:
- position
state_interfaces:
- position
- velocity
gripper_controller:
ros__parameters:
joints:
- gripper_right_joint
command_interfaces:
- position
state_interfaces:
- position
- velocity

44
unilabos/device_mesh/devices/benyao_arm/joint_limit.yaml
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@@ -1,44 +0,0 @@
joint_limits:
arm_base_joint:
effort: 50
velocity: 1.0
lower: 0
upper: 1.5
arm_link_1_joint:
effort: 50
velocity: 1.0
lower: 0
upper: 0.6
arm_link_2_joint:
effort: 50
velocity: 1.0
lower: !degrees -95
upper: !degrees 95
arm_link_3_joint:
effort: 50
velocity: 1.0
lower: !degrees -195
upper: !degrees 195
gripper_base_joint:
effort: 50
velocity: 1.0
lower: !degrees -95
upper: !degrees 95
gripper_right_joint:
effort: 50
velocity: 1.0
lower: 0
upper: 0.03
gripper_left_joint:
effort: 50
velocity: 1.0
lower: 0
upper: 0.03

293
unilabos/device_mesh/devices/benyao_arm/macro_device.xacro
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@@ -1,293 +0,0 @@
<?xml version="1.0" ?>
<robot xmlns:xacro="http://ros.org/wiki/xacro" name="benyao_arm">
<xacro:macro name="benyao_arm" params="mesh_path:='' parent_link:='' station_name:='' device_name:='' x:=0 y:=0 z:=0 rx:=0 ry:=0 r:=0">
<!-- Read .yaml files from disk, load content into properties -->
<xacro:property name= "joint_limit_parameters" value="${xacro.load_yaml(mesh_path + '/devices/benyao_arm/joint_limit.yaml')}"/>
<!-- Extract subsections from yaml dictionaries -->
<xacro:property name= "sec_limits" value="${joint_limit_parameters['joint_limits']}"/>
<joint name="${station_name}${device_name}base_link_joint" type="fixed">
<origin xyz="${x} ${y} ${z}" rpy="${rx} ${ry} ${r}" />
<parent link="${parent_link}"/>
<child link="${station_name}${device_name}device_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name="${station_name}${device_name}device_link"/>
<joint name="${station_name}${device_name}device_link_joint" type="fixed">
<origin xyz="0 0 0" rpy="0 0 0" />
<parent link="${station_name}${device_name}device_link"/>
<child link="${station_name}${device_name}arm_slideway"/>
<axis xyz="0 0 0"/>
</joint>
<!-- JOINTS LIMIT PARAMETERS -->
<xacro:property name="limit_arm_base_joint" value="${sec_limits['arm_base_joint']}" />
<xacro:property name="limit_arm_link_1_joint" value="${sec_limits['arm_link_1_joint']}" />
<xacro:property name="limit_arm_link_2_joint" value="${sec_limits['arm_link_2_joint']}" />
<xacro:property name="limit_arm_link_3_joint" value="${sec_limits['arm_link_3_joint']}" />
<xacro:property name="limit_gripper_base_joint" value="${sec_limits['gripper_base_joint']}" />
<xacro:property name="limit_gripper_right_joint" value="${sec_limits['gripper_right_joint']}"/>
<xacro:property name="limit_gripper_left_joint" value="${sec_limits['gripper_left_joint']}" />
<link name="${station_name}${device_name}arm_slideway">
<inertial>
<origin rpy="0 0 0" xyz="-0.913122246354019 -0.00141851388483838 0.0416079172839272"/>
<mass value="13.6578107753627"/>
<inertia ixx="0.0507627640890578" ixy="0.0245166532634714" ixz="-0.0112656803168519" iyy="5.2550852314372" iyz="0.000302974193920367" izz="5.26892263696439"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/arm_slideway.STL"/>
</geometry>
<material name="">
<color rgba="0.752941176470588 0.752941176470588 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/arm_slideway.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}arm_base_joint" type="prismatic">
<origin rpy="0 0 0" xyz="0.307 0 0.1225"/>
<parent link="${station_name}${device_name}arm_slideway"/>
<child link="${station_name}${device_name}arm_base"/>
<axis xyz="1 0 0"/>
<limit
effort="${limit_arm_base_joint['effort']}"
lower="${limit_arm_base_joint['lower']}"
upper="${limit_arm_base_joint['upper']}"
velocity="${limit_arm_base_joint['velocity']}"/>
</joint>
<link name="${station_name}${device_name}arm_base">
<inertial>
<origin rpy="0 0 0" xyz="1.48458338655733E-06 -0.00831873687136486 0.351728466012153"/>
<mass value="16.1341586205194"/>
<inertia ixx="0.54871651759045" ixy="7.65476367433116E-07" ixz="2.0515139488158E-07" iyy="0.55113098995396" iyz="-5.13261457726806E-07" izz="0.0619081867727048"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/arm_base.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/arm_base.STL"/>
</geometry>
</collision>
</link>
<link name="${station_name}${device_name}arm_link_1">
<inertial>
<origin rpy="0 0 0" xyz="0 -0.0102223856758559 0.0348505130779933"/>
<mass value="0.828629227096429"/>
<inertia ixx="0.00119703598787112" ixy="-2.46083048832131E-19" ixz="1.43864352731199E-19" iyy="0.00108355785790042" iyz="1.88092240278693E-06" izz="0.00160914803816438"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/arm_link_1.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/arm_link_1.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}arm_link_1_joint" type="prismatic">
<origin rpy="0 0 0" xyz="0 0.1249 0.15"/>
<parent link="${station_name}${device_name}arm_base"/>
<child link="${station_name}${device_name}arm_link_1"/>
<axis xyz="0 0 1"/>
<limit
effort="${limit_arm_link_1_joint['effort']}"
lower="${limit_arm_link_1_joint['lower']}"
upper="${limit_arm_link_1_joint['upper']}"
velocity="${limit_arm_link_1_joint['velocity']}"/>
</joint>
<link name="${station_name}${device_name}arm_link_2">
<inertial>
<origin rpy="0 0 0" xyz="-3.33066907387547E-16 0.100000000000003 -0.0325000000000004"/>
<mass value="2.04764861029349"/>
<inertia ixx="0.0150150059448827" ixy="-1.28113733272213E-17" ixz="6.7561418872754E-19" iyy="0.00262980501315445" iyz="7.44451536320152E-18" izz="0.0162030186138787"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/arm_link_2.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/arm_link_2.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}arm_link_2_joint" type="revolute">
<origin rpy="0 0 0" xyz="0 0 0"/>
<parent link="${station_name}${device_name}arm_link_1"/>
<child link="${station_name}${device_name}arm_link_2"/>
<axis xyz="0 0 1"/>
<limit
effort="${limit_arm_link_2_joint['effort']}"
lower="${limit_arm_link_2_joint['lower']}"
upper="${limit_arm_link_2_joint['upper']}"
velocity="${limit_arm_link_2_joint['velocity']}"/>
</joint>
<link name="${station_name}${device_name}arm_link_3">
<inertial>
<origin rpy="0 0 0" xyz="4.77395900588817E-15 0.0861257730831348 -0.0227999999999999"/>
<mass value="1.19870202871083"/>
<inertia ixx="0.00780783223764428" ixy="7.26567379579506E-18" ixz="1.02766851352053E-18" iyy="0.00109642607170081" iyz="-9.73775385060067E-18" izz="0.0084997384510058"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/arm_link_3.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/arm_link_3.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}arm_link_3_joint" type="revolute">
<origin rpy="0 0 0" xyz="0 0.2 -0.0647"/>
<parent link="${station_name}${device_name}arm_link_2"/>
<child link="${station_name}${device_name}arm_link_3"/>
<axis xyz="0 0 1"/>
<limit
effort="${limit_arm_link_3_joint['effort']}"
lower="${limit_arm_link_3_joint['lower']}"
upper="${limit_arm_link_3_joint['upper']}"
velocity="${limit_arm_link_3_joint['velocity']}"/>
</joint>
<link name="${station_name}${device_name}gripper_base">
<inertial>
<origin rpy="0 0 0" xyz="-6.05365748571618E-05 0.0373027483464434 -0.0264392017534612"/>
<mass value="0.511925198394943"/>
<inertia ixx="0.000640463815051467" ixy="1.08132229596356E-06" ixz="7.165124649009E-07" iyy="0.000552164156414554" iyz="9.80000237347941E-06" izz="0.00103553457812823"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/gripper_base.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/gripper_base.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}gripper_base_joint" type="revolute">
<origin rpy="0 0 0" xyz="0 0.2 -0.045"/>
<parent link="${station_name}${device_name}arm_link_3"/>
<child link="${station_name}${device_name}gripper_base"/>
<axis xyz="0 0 1"/>
<limit
effort="${limit_gripper_base_joint['effort']}"
lower="${limit_gripper_base_joint['lower']}"
upper="${limit_gripper_base_joint['upper']}"
velocity="${limit_gripper_base_joint['velocity']}"/>
</joint>
<link name="${station_name}${device_name}gripper_right">
<inertial>
<origin rpy="0 0 0" xyz="0.0340005471193899 0.0339655085140826 -0.0325252119823062"/>
<mass value="0.013337481136229"/>
<inertia ixx="2.02427962974094E-05" ixy="1.78442722292145E-06" ixz="-4.36485961300289E-07" iyy="1.4816483393622E-06" iyz="2.60539468115799E-06" izz="1.96629693098755E-05"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/gripper_right.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/gripper_right.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}gripper_right_joint" type="prismatic">
<origin rpy="0 0 0" xyz="0 0.0942 -0.022277"/>
<parent link="${station_name}${device_name}gripper_base"/>
<child link="${station_name}${device_name}gripper_right"/>
<axis xyz="1 0 0"/>
<limit
effort="${limit_gripper_right_joint['effort']}"
lower="${limit_gripper_right_joint['lower']}"
upper="${limit_gripper_right_joint['upper']}"
velocity="${limit_gripper_right_joint['velocity']}"/>
</joint>
<link name="${station_name}${device_name}gripper_left">
<inertial>
<origin rpy="0 3.1416 0" xyz="-0.0340005471193521 0.0339655081029604 -0.0325252119827364"/>
<mass value="0.0133374811362292"/>
<inertia ixx="2.02427962974094E-05" ixy="-1.78442720812615E-06" ixz="4.36485961300305E-07" iyy="1.48164833936224E-06" iyz="2.6053946859901E-06" izz="1.96629693098755E-05"/>
</inertial>
<visual>
<origin rpy="0 3.1416 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/gripper_left.STL"/>
</geometry>
<material name="">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="0 3.1416 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/benyao_arm/meshes/gripper_left.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}gripper_left_joint" type="prismatic">
<origin rpy="0 3.1416 0" xyz="0 0.0942 -0.022277"/>
<parent link="${station_name}${device_name}gripper_base"/>
<child link="${station_name}${device_name}gripper_left"/>
<axis xyz="1 0 0"/>
<limit
effort="${limit_gripper_left_joint['effort']}"
lower="${limit_gripper_left_joint['lower']}"
upper="${limit_gripper_left_joint['upper']}"
velocity="${limit_gripper_left_joint['velocity']}"/>
<mimic joint="${station_name}${device_name}gripper_right_joint" multiplier="1" />
</joint>
</xacro:macro>
</robot>

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5
unilabos/device_mesh/devices/opentrons_liquid_handler/macro_device.xacro
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@@ -3,10 +3,11 @@
<robot xmlns:xacro="http://ros.org/wiki/xacro">
<xacro:macro name="opentrons_liquid_handler"
params="parent_link:='' station_name:='' device_name:='' x:=0 y:=0 z:=0 rx:=0 ry:=0 r:=0 mesh_path:=''">
params="parent_link:='' station_name:='' device_name:='' x:=0 y:=0 z:=0 r:=0 mesh_path:=''">
<joint name="${station_name}${device_name}base_link_joint" type="fixed">
<origin xyz="${x} ${y} ${z}" rpy="${rx} ${ry} ${r}" />
<origin xyz="${x} ${y} ${z}" rpy="0 0 ${r}" />
<parent link="${parent_link}"/>
<child link="${station_name}${device_name}device_link"/>
<axis xyz="0 0 0"/>

4
unilabos/device_mesh/devices/slide_w140/macro_device.xacro
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@@ -8,11 +8,11 @@
For more information, please see http://wiki.ros.org/sw_urdf_exporter -->
<robot xmlns:xacro="http://ros.org/wiki/xacro">
<xacro:macro name="slide_w140" params="mesh_path:='' length:=0.1 min_d:=0.1 max_d:=0.1 slider_d:=0.14 parent_link:='' station_name:='' device_name:='' x:=0 y:=0 z:=0 rx:=0 ry:=0 r:=0" >
<xacro:macro name="slide_w140" params="mesh_path:='' length:=0.1 min_d:=0.1 max_d:=0.1 slider_d:=0.14 parent_link:='' station_name:='' device_name:='' x:=0 y:=0 z:=0 r:=0" >
<joint name="${station_name}${device_name}base_link_joint" type="fixed">
<origin xyz="${x} ${y} ${z}" rpy="${rx} ${ry} ${r}" />
<origin xyz="${x} ${y} ${z}" rpy="0 0 ${r}" />
<parent link="${parent_link}"/>
<child link="${station_name}${device_name}device_link"/>
<axis xyz="0 0 0"/>

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59
unilabos/device_mesh/devices/thermo_orbitor_rs2_hotel/macro_device.xacro
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@@ -1,59 +0,0 @@
<?xml version='1.0'?>
<robot xmlns:xacro="http://www.ros.org/wiki/xacro">
<xacro:macro name="thermo_orbitor_rs2_hotel"
params="parent_link:='' station_name:='' device_name:='' x:=0 y:=0 z:=0 rx:=0 ry:=0 r:=0
mesh_path:=''">
<joint name="${station_name}${device_name}base_link_joint" type="fixed">
<origin xyz="${x} ${y} ${z}" rpy="${rx} ${ry} ${r}" />
<parent link="${parent_link}"/>
<child link="${station_name}${device_name}device_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name="${station_name}${device_name}device_link"/>
<joint name="${station_name}${device_name}device_link_joint" type="fixed">
<origin xyz="0 0 0" rpy="0 0 0" />
<parent link="${station_name}${device_name}device_link"/>
<child link="${station_name}${device_name}base_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name='${station_name}${device_name}base_link'>
<visual name='visual'>
<origin rpy="-${pi/2} 0 ${pi}" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/thermo_orbitor_rs2_hotel/meshes/hotel.stl"/>
</geometry>
<material name="clay">
<color rgba="1 1 1 1"/>
</material>
</visual>
<collision>
<origin rpy="-${pi/2} 0 ${pi}" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/thermo_orbitor_rs2_hotel/meshes/hotel.stl"/>
</geometry>
</collision>
</link>
<link name='${station_name}${device_name}socketTypeGenericSbsFootprint'/>
<xacro:property name="delta" value="0.073" />
<xacro:macro name='platetargets' params='num'>
<joint name='${station_name}${device_name}socketTypeGenericSbsFootprint_${num}_60_1' type='fixed'>
<parent link="${station_name}${device_name}base_link"/>
<child link="${station_name}${device_name}socketTypeGenericSbsFootprint"/>
<origin rpy="0 0 ${pi/2}" xyz="-0.002 0.011 ${(num - 1) * delta + 0.038}"/>
</joint>
</xacro:macro>
<xacro:platetargets num='1' />
<xacro:platetargets num='2' />
<xacro:platetargets num='3' />
<xacro:platetargets num='4' />
<xacro:platetargets num='5' />
<xacro:platetargets num='6' />
<xacro:platetargets num='7' />
<xacro:platetargets num='8' />
</xacro:macro>
</robot>

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BIN
unilabos/device_mesh/devices/thermo_orbitor_rs2_hotel/meshes/hotel.stl
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10
unilabos/device_mesh/devices/thermo_orbitor_rs2_hotel/meta.json
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@@ -1,10 +0,0 @@
{
"fileName": "thermo_orbitor_rs2_hotel",
"related": [
"thermo_skyline_stacker",
"thermo_cytomat2c_stacker_15",
"thermo_fisher_cytomat_stacker_16",
"thermo_cytomat2c_stacker_21",
"thermo_orbitor_rs2_hotel"
]
}

10
unilabos/device_mesh/devices/toyo_xyz/config/full_dev.urdf.xacro
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@@ -1,10 +0,0 @@
<?xml version="1.0"?>
<robot xmlns:xacro="http://www.ros.org/wiki/xacro" name="full_dev">
<xacro:arg name="device_name" default=""/>
<xacro:arg name="mesh_path" default="/home/z43/git_pj/Uni-Lab-OS/unilabos/device_mesh" />
<xacro:include filename="macro.ros2_control.xacro" />
<xacro:toyo_xyz_ros2_control device_name="$(arg device_name)" mesh_path="$(arg mesh_path)" />
</robot>

6
unilabos/device_mesh/devices/toyo_xyz/config/initial_positions.yaml
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@@ -1,6 +0,0 @@
# Default initial positions for full_dev's ros2_control fake system
initial_positions:
slider1_joint: 0
slider2_joint: 0
slider3_joint: 0

25
unilabos/device_mesh/devices/toyo_xyz/config/joint_limits.yaml
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@@ -1,25 +0,0 @@
# joint_limits.yaml allows the dynamics properties specified in the URDF to be overwritten or augmented as needed
# For beginners, we downscale velocity and acceleration limits.
# You can always specify higher scaling factors (<= 1.0) in your motion requests. # Increase the values below to 1.0 to always move at maximum speed.
default_velocity_scaling_factor: 0.1
default_acceleration_scaling_factor: 0.1
# Specific joint properties can be changed with the keys [max_position, min_position, max_velocity, max_acceleration]
# Joint limits can be turned off with [has_velocity_limits, has_acceleration_limits]
joint_limits:
slider1_joint:
has_velocity_limits: false
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0
slider2_joint:
has_velocity_limits: false
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0
slider3_joint:
has_velocity_limits: false
max_velocity: 0
has_acceleration_limits: false
max_acceleration: 0

4
unilabos/device_mesh/devices/toyo_xyz/config/kinematics.yaml
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@@ -1,4 +0,0 @@
toyo_xyz:
kinematics_solver: lma_kinematics_plugin/LMAKinematicsPlugin
kinematics_solver_search_resolution: 0.0050000000000000001
kinematics_solver_timeout: 0.0050000000000000001

35
unilabos/device_mesh/devices/toyo_xyz/config/macro.ros2_control.xacro
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@@ -1,35 +0,0 @@
<?xml version="1.0"?>
<robot xmlns:xacro="http://www.ros.org/wiki/xacro">
<xacro:macro name="toyo_xyz_ros2_control" params="device_name mesh_path">
<xacro:property name="initial_positions" value="${load_yaml(mesh_path + '/devices/toyo_xyz/config/initial_positions.yaml')['initial_positions']}"/>
<ros2_control name="${device_name}toyo_xyz" type="system">
<hardware>
<!-- By default, set up controllers for simulation. This won't work on real hardware -->
<plugin>mock_components/GenericSystem</plugin>
</hardware>
<joint name="${device_name}slider1_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['slider1_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
<joint name="${device_name}slider2_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['slider2_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
<joint name="${device_name}slider3_joint">
<command_interface name="position"/>
<state_interface name="position">
<param name="initial_value">${initial_positions['slider3_joint']}</param>
</state_interface>
<state_interface name="velocity"/>
</joint>
</ros2_control>
</xacro:macro>
</robot>

109
unilabos/device_mesh/devices/toyo_xyz/config/macro.srdf.xacro
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@@ -1,109 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--This does not replace URDF, and is not an extension of URDF.
This is a format for representing semantic information about the robot structure.
A URDF file must exist for this robot as well, where the joints and the links that are referenced are defined
-->
<robot xmlns:xacro="http://ros.org/wiki/xacro">
<xacro:macro name="toyo_xyz_srdf" params="device_name">
<!--GROUPS: Representation of a set of joints and links. This can be useful for specifying DOF to plan for, defining arms, end effectors, etc-->
<!--LINKS: When a link is specified, the parent joint of that link (if it exists) is automatically included-->
<!--JOINTS: When a joint is specified, the child link of that joint (which will always exist) is automatically included-->
<!--CHAINS: When a chain is specified, all the links along the chain (including endpoints) are included in the group. Additionally, all the joints that are parents to included links are also included. This means that joints along the chain and the parent joint of the base link are included in the group-->
<!--SUBGROUPS: Groups can also be formed by referencing to already defined group names-->
<group name="${device_name}toyo_xyz">
<chain base_link="${device_name}base_link" tip_link="${device_name}slider3_link"/>
</group>
<!--DISABLE COLLISIONS: By default it is assumed that any link of the robot could potentially come into collision with any other link in the robot. This tag disables collision checking between a specified pair of links. -->
<disable_collisions link1="${device_name}base2_link" link2="${device_name}base3_link" reason="Never"/>
<disable_collisions link1="${device_name}base2_link" link2="${device_name}base_link" reason="Never"/>
<disable_collisions link1="${device_name}base2_link" link2="${device_name}chain_link" reason="Never"/>
<disable_collisions link1="${device_name}base2_link" link2="${device_name}end2_link" reason="Never"/>
<disable_collisions link1="${device_name}base2_link" link2="${device_name}end3_link" reason="Never"/>
<disable_collisions link1="${device_name}base2_link" link2="${device_name}end_link" reason="Never"/>
<disable_collisions link1="${device_name}base2_link" link2="${device_name}fixed_link" reason="Never"/>
<disable_collisions link1="${device_name}base2_link" link2="${device_name}length1_link" reason="Never"/>
<disable_collisions link1="${device_name}base2_link" link2="${device_name}length2_link" reason="Default"/>
<disable_collisions link1="${device_name}base2_link" link2="${device_name}length3_link" reason="Never"/>
<disable_collisions link1="${device_name}base2_link" link2="${device_name}slider1_link" reason="Adjacent"/>
<disable_collisions link1="${device_name}base2_link" link2="${device_name}slider2_link" reason="Never"/>
<disable_collisions link1="${device_name}base2_link" link2="${device_name}slider3_link" reason="Never"/>
<disable_collisions link1="${device_name}base3_link" link2="${device_name}base_link" reason="Never"/>
<disable_collisions link1="${device_name}base3_link" link2="${device_name}chain_link" reason="Never"/>
<disable_collisions link1="${device_name}base3_link" link2="${device_name}end2_link" reason="Never"/>
<disable_collisions link1="${device_name}base3_link" link2="${device_name}end3_link" reason="Never"/>
<disable_collisions link1="${device_name}base3_link" link2="${device_name}end_link" reason="Never"/>
<disable_collisions link1="${device_name}base3_link" link2="${device_name}fixed_link" reason="Never"/>
<disable_collisions link1="${device_name}base3_link" link2="${device_name}length1_link" reason="Never"/>
<disable_collisions link1="${device_name}base3_link" link2="${device_name}length2_link" reason="Never"/>
<disable_collisions link1="${device_name}base3_link" link2="${device_name}length3_link" reason="Never"/>
<disable_collisions link1="${device_name}base3_link" link2="${device_name}slider1_link" reason="Never"/>
<disable_collisions link1="${device_name}base3_link" link2="${device_name}slider2_link" reason="Adjacent"/>
<disable_collisions link1="${device_name}base3_link" link2="${device_name}slider3_link" reason="Never"/>
<disable_collisions link1="${device_name}base_link" link2="${device_name}chain_link" reason="Never"/>
<disable_collisions link1="${device_name}base_link" link2="${device_name}end2_link" reason="Never"/>
<disable_collisions link1="${device_name}base_link" link2="${device_name}end3_link" reason="Never"/>
<disable_collisions link1="${device_name}base_link" link2="${device_name}end_link" reason="Adjacent"/>
<disable_collisions link1="${device_name}base_link" link2="${device_name}fixed_link" reason="Never"/>
<disable_collisions link1="${device_name}base_link" link2="${device_name}length1_link" reason="Adjacent"/>
<disable_collisions link1="${device_name}base_link" link2="${device_name}length2_link" reason="Never"/>
<disable_collisions link1="${device_name}base_link" link2="${device_name}length3_link" reason="Never"/>
<disable_collisions link1="${device_name}base_link" link2="${device_name}slider1_link" reason="Adjacent"/>
<disable_collisions link1="${device_name}base_link" link2="${device_name}slider2_link" reason="Never"/>
<disable_collisions link1="${device_name}base_link" link2="${device_name}slider3_link" reason="Never"/>
<disable_collisions link1="${device_name}chain_link" link2="${device_name}end2_link" reason="Never"/>
<disable_collisions link1="${device_name}chain_link" link2="${device_name}end3_link" reason="Never"/>
<disable_collisions link1="${device_name}chain_link" link2="${device_name}end_link" reason="Never"/>
<disable_collisions link1="${device_name}chain_link" link2="${device_name}fixed_link" reason="Default"/>
<disable_collisions link1="${device_name}chain_link" link2="${device_name}length1_link" reason="Never"/>
<disable_collisions link1="${device_name}chain_link" link2="${device_name}length2_link" reason="Never"/>
<disable_collisions link1="${device_name}chain_link" link2="${device_name}length3_link" reason="Never"/>
<disable_collisions link1="${device_name}chain_link" link2="${device_name}slider1_link" reason="Adjacent"/>
<disable_collisions link1="${device_name}chain_link" link2="${device_name}slider2_link" reason="Never"/>
<disable_collisions link1="${device_name}chain_link" link2="${device_name}slider3_link" reason="Never"/>
<disable_collisions link1="${device_name}end2_link" link2="${device_name}end3_link" reason="Never"/>
<disable_collisions link1="${device_name}end2_link" link2="${device_name}end_link" reason="Never"/>
<disable_collisions link1="${device_name}end2_link" link2="${device_name}fixed_link" reason="Never"/>
<disable_collisions link1="${device_name}end2_link" link2="${device_name}length1_link" reason="Never"/>
<disable_collisions link1="${device_name}end2_link" link2="${device_name}length2_link" reason="Default"/>
<disable_collisions link1="${device_name}end2_link" link2="${device_name}length3_link" reason="Never"/>
<disable_collisions link1="${device_name}end2_link" link2="${device_name}slider1_link" reason="Adjacent"/>
<disable_collisions link1="${device_name}end2_link" link2="${device_name}slider2_link" reason="Never"/>
<disable_collisions link1="${device_name}end2_link" link2="${device_name}slider3_link" reason="Never"/>
<disable_collisions link1="${device_name}end3_link" link2="${device_name}end_link" reason="Never"/>
<disable_collisions link1="${device_name}end3_link" link2="${device_name}fixed_link" reason="Never"/>
<disable_collisions link1="${device_name}end3_link" link2="${device_name}length1_link" reason="Never"/>
<disable_collisions link1="${device_name}end3_link" link2="${device_name}length2_link" reason="Never"/>
<disable_collisions link1="${device_name}end3_link" link2="${device_name}length3_link" reason="Default"/>
<disable_collisions link1="${device_name}end3_link" link2="${device_name}slider1_link" reason="Never"/>
<disable_collisions link1="${device_name}end3_link" link2="${device_name}slider2_link" reason="Adjacent"/>
<disable_collisions link1="${device_name}end3_link" link2="${device_name}slider3_link" reason="Never"/>
<disable_collisions link1="${device_name}end_link" link2="${device_name}fixed_link" reason="Never"/>
<disable_collisions link1="${device_name}end_link" link2="${device_name}length1_link" reason="Default"/>
<disable_collisions link1="${device_name}end_link" link2="${device_name}length2_link" reason="Never"/>
<disable_collisions link1="${device_name}end_link" link2="${device_name}length3_link" reason="Never"/>
<disable_collisions link1="${device_name}end_link" link2="${device_name}slider1_link" reason="Never"/>
<disable_collisions link1="${device_name}end_link" link2="${device_name}slider2_link" reason="Never"/>
<disable_collisions link1="${device_name}end_link" link2="${device_name}slider3_link" reason="Never"/>
<disable_collisions link1="${device_name}fixed_link" link2="${device_name}length1_link" reason="Never"/>
<disable_collisions link1="${device_name}fixed_link" link2="${device_name}length2_link" reason="Never"/>
<disable_collisions link1="${device_name}fixed_link" link2="${device_name}length3_link" reason="Default"/>
<disable_collisions link1="${device_name}fixed_link" link2="${device_name}slider1_link" reason="Never"/>
<disable_collisions link1="${device_name}fixed_link" link2="${device_name}slider2_link" reason="Adjacent"/>
<disable_collisions link1="${device_name}fixed_link" link2="${device_name}slider3_link" reason="Never"/>
<disable_collisions link1="${device_name}length1_link" link2="${device_name}length2_link" reason="Never"/>
<disable_collisions link1="${device_name}length1_link" link2="${device_name}length3_link" reason="Never"/>
<disable_collisions link1="${device_name}length1_link" link2="${device_name}slider1_link" reason="Never"/>
<disable_collisions link1="${device_name}length1_link" link2="${device_name}slider2_link" reason="Never"/>
<disable_collisions link1="${device_name}length1_link" link2="${device_name}slider3_link" reason="Never"/>
<disable_collisions link1="${device_name}length2_link" link2="${device_name}length3_link" reason="Never"/>
<disable_collisions link1="${device_name}length2_link" link2="${device_name}slider1_link" reason="Adjacent"/>
<disable_collisions link1="${device_name}length2_link" link2="${device_name}slider2_link" reason="Never"/>
<disable_collisions link1="${device_name}length2_link" link2="${device_name}slider3_link" reason="Never"/>
<disable_collisions link1="${device_name}length3_link" link2="${device_name}slider1_link" reason="Never"/>
<disable_collisions link1="${device_name}length3_link" link2="${device_name}slider2_link" reason="Adjacent"/>
<disable_collisions link1="${device_name}length3_link" link2="${device_name}slider3_link" reason="Never"/>
<disable_collisions link1="${device_name}slider1_link" link2="${device_name}slider2_link" reason="Adjacent"/>
<disable_collisions link1="${device_name}slider1_link" link2="${device_name}slider3_link" reason="Never"/>
<disable_collisions link1="${device_name}slider2_link" link2="${device_name}slider3_link" reason="Adjacent"/>
</xacro:macro>
</robot>

12
unilabos/device_mesh/devices/toyo_xyz/config/move_group.json
View File

@@ -1,12 +0,0 @@
{
"toyo_xyz":
{
"joint_names": [
"slider1_joint",
"slider2_joint",
"slider3_joint"
],
"base_link_name": "device_link",
"end_effector_name": "slider3_link"
}
}

16
unilabos/device_mesh/devices/toyo_xyz/config/moveit_controllers.yaml
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@@ -1,16 +0,0 @@
# MoveIt uses this configuration for controller management
moveit_controller_manager: moveit_simple_controller_manager/MoveItSimpleControllerManager
moveit_simple_controller_manager:
controller_names:
- toyo_xyz_controller
toyo_xyz_controller:
type: FollowJointTrajectory
action_ns: follow_joint_trajectory
default: true
joints:
- slider1_joint
- slider2_joint
- slider3_joint

6
unilabos/device_mesh/devices/toyo_xyz/config/pilz_cartesian_limits.yaml
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@@ -1,6 +0,0 @@
# Limits for the Pilz planner
cartesian_limits:
max_trans_vel: 1.0
max_trans_acc: 2.25
max_trans_dec: -5.0
max_rot_vel: 1.57

34
unilabos/device_mesh/devices/toyo_xyz/config/ros2_controllers.yaml
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@@ -1,34 +0,0 @@
# This config file is used by ros2_control
controller_manager:
ros__parameters:
update_rate: 100 # Hz
joint_state_broadcaster:
type: joint_state_broadcaster/JointStateBroadcaster
# action_ns: $(var device_id)
toyo_xyz_controller:
type: joint_trajectory_controller/JointTrajectoryController
# joint_state_broadcaster:
# ros__parameters: {}
toyo_xyz_controller:
ros__parameters:
joints:
- slider1_joint
- slider2_joint
- slider3_joint
command_interfaces:
- position
state_interfaces:
- position
- velocity
allow_partial_joints_goal: false
open_loop_control: true
allow_integration_in_goal_trajectories: true
action_monitor_rate: 20.0
# goal_time: 0.0
# constraints:
# stopped_velocity_tolerance: 0.01
# goal_time: 0.0

14
unilabos/device_mesh/devices/toyo_xyz/joint_config.json
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@@ -1,14 +0,0 @@
{
"slider1_joint": {
"child":"slider1_link",
"axis" : "x"
},
"slider2_joint": {
"child":"slider2_link",
"axis" : "x"
},
"slider3_joint": {
"child":"slider3_link",
"axis" : "x"
}
}

465
unilabos/device_mesh/devices/toyo_xyz/macro_device.xacro
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@@ -1,465 +0,0 @@
<?xml version="1.0" ?>
<robot xmlns:xacro="http://ros.org/wiki/xacro">
<xacro:macro name="toyo_xyz"
params="length1:=0.1 min_d1:=0.01 max_d1:=0.01 slider_d1:=0.135
length2:=0.1 min_d2:=0.01 max_d2:=0.01 slider_d2:=0.116
length3:=0.1 min_d3:=0.01 max_d3:=0.01 slider_d3:=0.090
parent_link:='' station_name:='' device_name:='' x:=0 y:=0 z:=0 rx:=0 ry:=0 r:=0
mesh_path:=''">
<joint name="${station_name}${device_name}base_link_joint" type="fixed">
<origin xyz="${x} ${y} ${z}" rpy="${rx} ${ry} ${r}" />
<parent link="${parent_link}"/>
<child link="${station_name}${device_name}device_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name="${station_name}${device_name}device_link"/>
<joint name="${station_name}${device_name}device_link_joint" type="fixed">
<origin xyz="${-min_d1} 0 0" rpy="0 0 0" />
<parent link="${station_name}${device_name}device_link"/>
<child link="${station_name}${device_name}base_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name="${station_name}${device_name}base_link">
<inertial>
<origin rpy="0 0 0" xyz="-0.0120236017581094 -0.0517106842624209 0.0409192044637189"/>
<mass value="0.69481680376074"/>
<inertia ixx="0.000936712501344659" ixy="7.23677144617562E-06" ixz="-1.24166862138852E-06" iyy="0.000379264833590696" iyz="9.52650081379508E-07" izz="0.000898185165939333"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/base_link.STL"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/base_link.STL"/>
</geometry>
</collision>
</link>
<link name="${station_name}${device_name}length1_link">
<inertial>
<origin rpy="0 0 0" xyz="0.494579219297241 -0.0104662192149046 0.020043711867505"/>
<mass value="5.94417515905243"/>
<inertia ixx="0.00674507129097306" ixy="9.38238612394185E-09" ixz="4.35684774317116E-06" iyy="0.485770401104387" iyz="2.57353070463078E-06" izz="0.489757831272925"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/length1_link.STL" scale="${(length1 + min_d1 + max_d1 + slider_d1)} 1 1"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/length1_link.STL" scale="${(length1 + min_d1 + max_d1 + slider_d1)} 1 1"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}length1_joint" type="fixed">
<origin rpy="0 0 0" xyz="0 0 0"/>
<parent link="${station_name}${device_name}base_link"/>
<child link="${station_name}${device_name}length1_link"/>
<axis xyz="0 0 1"/>
</joint>
<link name="${station_name}${device_name}slider1_link">
<inertial>
<origin rpy="0 0 0" xyz="0 0 -0.00730412052530301"/>
<mass value="0.118155140657232"/>
<inertia ixx="6.43342434854928E-05" ixy="-2.31210361323828E-11" ixz="3.06922820322201E-10" iyy="0.000154199389116579" iyz="1.20524516927812E-08" izz="0.000215806482689218"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/slider1_link.STL"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/slider1_link.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}slider1_joint" type="prismatic">
<origin rpy="0 0 0" xyz="${min_d1 + slider_d1/2} 0 0.078"/>
<parent link="${station_name}${device_name}base_link"/>
<child link="${station_name}${device_name}slider1_link"/>
<axis xyz="1 0 0"/>
<limit effort="0" lower="0" upper="${length1}" velocity="0"/>
</joint>
<link name="${station_name}${device_name}chain_link">
<inertial>
<origin rpy="0 0 0" xyz="0.49922930196331 -0.00327071484975672 0.0207539916460562"/>
<mass value="2.00787563607981"/>
<inertia ixx="0.00240786362662634" ixy="1.44801915606072E-05" ixz="-3.1726019259437E-05" iyy="0.167850452350525" iyz="-0.000138217054257536" izz="0.168373005725347"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/chain_link.STL" scale="${(length2 + min_d2 + max_d2 + slider_d2)} 1 1"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/chain_link.STL" scale="${(length2 + min_d2 + max_d2 + slider_d2)} 1 1"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}chain_joint" type="fixed">
<origin rpy="0 0 1.5708" xyz="-0.02 -0.041 -0.0005"/>
<parent link="${station_name}${device_name}slider1_link"/>
<child link="${station_name}${device_name}chain_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name="${station_name}${device_name}base2_link">
<inertial>
<origin rpy="0 0 0" xyz="-0.00645898766177746 0.0354023221709439 0.0277640039757229"/>
<mass value="0.341816215620884"/>
<inertia ixx="0.000246380769664854" ixy="-3.5162220656232E-06" ixz="3.72156984182819E-08" iyy="0.00014938476423929" iyz="-2.01567401863811E-06" izz="0.000271539741067036"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/base2_link.STL"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/base2_link.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}base2_joint" type="fixed">
<origin rpy="1.5708 0 1.5708" xyz="-0.0145 0.0295 0.04915"/>
<parent link="${station_name}${device_name}slider1_link"/>
<child link="${station_name}${device_name}base2_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name="${station_name}${device_name}slider2_link">
<inertial>
<origin rpy="0 0 0" xyz="-1.94863440558524E-06 -4.2412482447185E-05 -0.00600639156586869"/>
<mass value="0.0568102419437891"/>
<inertia ixx="1.29719509999494E-05" ixy="-2.84670156002291E-09" ixz="-1.99529353027075E-10" iyy="5.43277686573641E-05" iyz="-5.94709690026503E-09" izz="6.6299564390705E-05"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/slider2_link.STL"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/slider2_link.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}slider2_joint" type="prismatic">
<origin rpy="1.5708 0 1.5708" xyz="0.0455 ${min_d2 + slider_d2/2 + 0.0295} 0.049"/>
<parent link="${station_name}${device_name}slider1_link"/>
<child link="${station_name}${device_name}slider2_link"/>
<axis xyz="1 0 0"/>
<limit effort="0" lower="0" upper="${length2}" velocity="0"/>
</joint>
<link name="${station_name}${device_name}length2_link">
<inertial>
<origin
xyz="0.495 -0.00012803097983341 0.0216248093421714"
rpy="0 0 0" />
<mass value="2.0281266583716" />
<inertia
ixx="0.000735867784216875"
ixy="4.46823528502648E-18"
ixz="1.62564733709183E-17"
iyy="0.166018547616233"
iyz="8.35811182464874E-07"
izz="0.166011809812984" />
</inertial>
<visual>
<origin xyz="0 0 0" rpy="0 0 0" />
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/length2_link.STL" scale="${(length2 + min_d2 + max_d2 + slider_d2)} 1 1"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1" />
</material>
</visual>
<collision>
<origin xyz="0 0 0" rpy="0 0 0" />
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/length2_link.STL" scale="${(length2 + min_d2 + max_d2 + slider_d2)} 1 1"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}length2_joint" type="fixed">
<origin xyz="-0.0145 0.0295 0.04915" rpy="1.5708 0 1.5708" />
<parent link="${station_name}${device_name}slider1_link" />
<child link="${station_name}${device_name}length2_link" />
<axis xyz="0 0 0" />
</joint>
<link name="${station_name}${device_name}fixed_link">
<inertial>
<origin rpy="0 0 0" xyz="0.0841027924880233 -1.38777878078145E-17 -0.00753342821771308"/>
<mass value="0.114714657110459"/>
<inertia ixx="4.09226560926746E-05" ixy="-1.19246814602201E-20" ixz="1.10812310425511E-07" iyy="0.000219464025912457" iyz="-3.47441993328604E-22" izz="0.000257639354963189"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/fixed_link.STL"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/fixed_link.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}fixed_joint" type="fixed">
<origin rpy="0 0 -1.5708" xyz="0 0.113 0.013"/>
<parent link="${station_name}${device_name}slider2_link"/>
<child link="${station_name}${device_name}fixed_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name="${station_name}${device_name}base3_link">
<inertial>
<origin rpy="0 0 0" xyz="-0.0898266891415951 -0.000686554465181816 0.0214841690633115"/>
<mass value="0.253768676399038"/>
<inertia ixx="7.3143781299483E-05" ixy="-9.27468544438197E-07" ixz="-6.25920202213005E-07" iyy="0.000222729105415939" iyz="1.73297633775367E-06" izz="0.000226940773440045"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/base3_link.STL"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/base3_link.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}base3_joint" type="fixed">
<origin rpy="0 0 -1.5708" xyz="0 0.113 0.013"/>
<parent link="${station_name}${device_name}slider2_link"/>
<child link="${station_name}${device_name}base3_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name="${station_name}${device_name}length3_link">
<inertial>
<origin rpy="0 0 0" xyz="0.495 2.22485346140083E-05 0.017182121490278"/>
<mass value="1.46660245378617"/>
<inertia ixx="0.000378412905544255" ixy="6.68641853450019E-20" ixz="1.30946080093724E-18" iyy="0.119979432170624" iyz="5.03952092605041E-07" izz="0.11996849156089"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/length3_link.STL" scale="${(length3 + min_d3 + max_d3 + slider_d3)} 1 1"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/length3_link.STL" scale="${(length3 + min_d3 + max_d3 + slider_d3)} 1 1"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}length3_joint" type="fixed">
<origin rpy="0 0 -1.5708" xyz="0 0.113 0.013"/>
<parent link="${station_name}${device_name}slider2_link"/>
<child link="${station_name}${device_name}length3_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name="${station_name}${device_name}slider3_link">
<inertial>
<origin rpy="0 0 0" xyz="6.92336766672241E-06 2.33762226242717E-09 -0.0056316911606703"/>
<mass value="0.0319537658681183"/>
<inertia ixx="4.74895305241407E-06" ixy="-2.68838717157416E-13" ixz="4.74105113238926E-10" iyy="1.78967089054364E-05" iyz="-4.41481885417567E-13" izz="2.21974556051535E-05"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/slider3_link.STL"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/slider3_link.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}slider3_joint" type="prismatic">
<origin rpy="0 0 -1.5708" xyz="0 ${0.113 - min_d3 - slider_d3/2} 0.0635"/>
<parent link="${station_name}${device_name}slider2_link"/>
<child link="${station_name}${device_name}slider3_link"/>
<axis xyz="1 0 0"/>
<limit effort="0" lower="0" upper="${length3}" velocity="0"/>
</joint>
<link name="${station_name}${device_name}end3_link">
<inertial>
<origin rpy="0 0 0" xyz="0.00497294496885192 -2.44043265976157E-06 0.0183349877681029"/>
<mass value="0.0140489551253671"/>
<inertia ixx="3.43932725883609E-06" ixy="4.00452842192135E-11" ixz="-1.53817578472123E-08" iyy="1.94727500633638E-06" iyz="-3.82376052540752E-10" izz="1.72263562631362E-06"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/end3_link.STL"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/end3_link.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}end3_joint" type="fixed">
<origin rpy="0 0 -1.5708" xyz="0 -${min_d3 + slider_d3 + length3 + max_d3 -0.113} 0.013"/>
<parent link="${station_name}${device_name}slider2_link"/>
<child link="${station_name}${device_name}end3_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name="${station_name}${device_name}end2_link">
<inertial>
<origin rpy="0 0 0" xyz="0.00495670363919842 -8.74633492434218E-06 0.0214414396703796"/>
<mass value="0.0200788183514264"/>
<inertia ixx="7.16397592830092E-06" ixy="4.75643325623778E-11" ixz="-2.20469268570818E-08" iyy="3.90488015971723E-06" iyz="-3.17180365916489E-09" izz="3.58779761734039E-06"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/end2_link.STL"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/end2_link.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}end2_joint" type="fixed">
<origin rpy="1.5708 0 1.5708" xyz="-0.0135 ${min_d2 + slider_d2 + length2 + max_d2 + 0.0295} 0.0492"/>
<parent link="${station_name}${device_name}slider1_link"/>
<child link="${station_name}${device_name}end2_link"/>
<axis xyz="0 0 0"/>
</joint>
<link name="${station_name}${device_name}end_link">
<inertial>
<origin rpy="0 0 0" xyz="0.00744127217617607 -2.30544170541074E-06 0.0287548952899474"/>
<mass value="0.0648209796507272"/>
<inertia ixx="4.85939921252094E-05" ixy="1.05486327324319E-09" ixz="-4.17427158603031E-08" iyy="2.1549381051207E-05" iyz="2.1129085201095E-09" izz="2.9433994127647E-05"/>
</inertial>
<visual>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/end_link.STL"/>
</geometry>
<material name="">
<color rgba="0.756862745098039 0.768627450980392 0.752941176470588 1"/>
</material>
</visual>
<collision>
<origin rpy="0 0 0" xyz="0 0 0"/>
<geometry>
<mesh filename="file://${mesh_path}/devices/toyo_xyz/meshes/end_link.STL"/>
</geometry>
</collision>
</link>
<joint name="${station_name}${device_name}end_joint" type="fixed">
<origin rpy="0 0 0" xyz="${min_d1 + length1 + max_d1 + slider_d1} 0 0.001"/>
<parent link="${station_name}${device_name}base_link"/>
<child link="${station_name}${device_name}end_link"/>
<axis xyz="0 0 0"/>
</joint>
</xacro:macro>
</robot>

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