Project Summary: The core idea is to ensure safer and healthier Robotic Surgeries using Medical Robots. At a glance, we can assume that Robotic Surgeries are completely safe and free of blunders. Robotic surgeries are deliberately practised evacuating human efforts but still
Path Algorithm for Medical Robots in Health Hazards Situation
Project Summary:
The core idea is to ensure safer and healthier Robotic Surgeries using Medical Robots. At a glance, we can assume that Robotic Surgeries are completely safe and free of blunders. Robotic surgeries are deliberately practised evacuating human efforts but still, there is a bridge we need to conquer. There are many puzzling circumstances in surgeries especially for robots working in an unstructured dynamic environment. Considering position errors in Medical Robots, the problem of Path Planning is giving rise to Health Hazard Situations such as if any obstacle comes in the working trajectory of any Medical Robot (Surgical Assistant), it may cause any lethal damage to the patient or to a surgeon. Autonomous Path Planning is the most important issue which should be resolved for improving the intelligence of Medical Robots. Our proposed project is to use advanced RRT (rapidly-exploring random trees) Algorithm to decrease position errors and to simulate results on MATLAB (Matrix Laboratory) and on ROS (Robotic Operating System). After doing so we will implement the simulated work on real-time systems using any well programmable Robotic Arm (Arduino Compatible Robotic Arm). So that we can further modify the Path Algorithm.
Project Objectives:
Project Implementation Method:
Basically, the project is divided into three parts. First is about to design a Path Algorithm, Secondly, to simulate the Path Algorithm with MATLAB and ROS. Thirdly, to implement on Robotic Arm. After implementation, we will come to know about the authenticity of the algorithm, even we can check different dynamic obstacle control.

Benefits of the Project:
Technical Details of Final Deliverable:
This prototype integrated system will be delivered along with its technical detailed reports. The system mainly consists of two parts:
| Item Name | Type | No. of Units | Per Unit Cost (in Rs) | Total (in Rs) |
|---|---|---|---|---|
| Kinetic RGB-D Sensor | Miscellaneous | 1 | 5000 | 5000 |
| Lynxmotion AL5D PLTW Robotic Arm Kit | Equipment | 1 | 50702 | 50702 |
| Total in (Rs) | 55702 |
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