Development of sensorised tool for robotic manipulation of objects
This report would present the design, development, and integration of a self-adjusting sensorised tool for robotic arms to enhance its gripping capabilities on objects through wrist like movement. The integration of robotic arms into a variety of industries have significantly helped in boostin...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
Nanyang Technological University
2024
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| Online Access: | https://hdl.handle.net/10356/177844 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | This report would present the design, development, and integration of a self-adjusting
sensorised tool for robotic arms to enhance its gripping capabilities on objects through wrist
like movement. The integration of robotic arms into a variety of industries have significantly
helped in boosting productivity and efficiency overall. However commonly robotic grippers
often face difficulties when grasping objects with irregular shapes or uneven surfaces. The
proposed sensorised tool addresses these issues by incorporating a dynamic ball and base
mechanism that would autonomously adjust itself to be in full contact with the object to be
moved. With a detailed literature review that explains the existing robotic grippers and
mechanisms in use today and the challenges faced by them and a methodology section to
elaborate the steps involved in developing the sensorised tool and the integration of sensors to
further enhance the functionality of the tool. This report also explains the principles, features
required, and the data collected from the experiments carried out, highlighting the possible uses
that it would have especially in industrial use. Its ability to self adjust to objects with different
orientiaons would improve the overall operational efficiency of processes. Moreover, with the
constant advancements with artificial intelligence and sensor technology, there are also
possibilities of further improvement in new iterations of the sensorised tool in the future. |
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