Tesi etd-04082019-184024 |
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Tipo di tesi
Tesi di laurea magistrale
Autore
DI BLASIO, KATIA
URN
etd-04082019-184024
Titolo
Design, implementation and testing of a modality-matching high-frequency tactile feedback for prosthetics and tele-robotics
Dipartimento
INGEGNERIA DELL'INFORMAZIONE
Corso di studi
INGEGNERIA ROBOTICA E DELL'AUTOMAZIONE
Relatori
relatore Prof. Bicchi, Antonio
relatore Prof. Bianchi, Matteo
tutor Dott. Grioli, Giorgio
tutor Dott. Catalano, Manuel Giuseppe
tutor Ing. Fani, Simone
relatore Prof. Bianchi, Matteo
tutor Dott. Grioli, Giorgio
tutor Dott. Catalano, Manuel Giuseppe
tutor Ing. Fani, Simone
Parole chiave
- robotics
- tele-robotics
- haptics
- prosthetics
Data inizio appello
26/04/2019
Consultabilità
Non consultabile
Data di rilascio
26/04/2089
Riassunto
The aim of the thesis was to design, implement and test a wearable digital device that is able to render high frequency forces obtained during tele-robotics or during the use of a prosthetic device on the operator/subject’s skin. This device must be able to make the operator/subject feel the real roughness of the various surfaces the robotic hand is touching, and other events related to accelerations, such as contact information.
Firstly, I made an acquisition, analysis and elaboration of the acceleration signals acquired from accelerometers placed on a robotic hand fingernails. The goal was to obtain a filter able to insulate only the frequencies which could mean something in terms of tactile perception. The acquisition was made thanks to a special C++ code and modifications on the firmware of the control board which gets acceleration signals.
Once chosen the filter that satisfied my requirements, for the prosthetic application, I modified the firmware of the control board that controls the actuators (linear voice coil actuators controlled by PWM) in order to appropriately control actuators. Particularly, I modified the code in order to add the filtering function and many elaborations command and I controlled the output tension in order to not overcome the maximum power for the actuators. For the tele-robotics application, I wrote a ROS code able to acquire data from the accelerometers control board, to filter and elaborate them, and to send them, via modem, to the actuators control board. I also modified the firmware control boards.
For the testing part, I first designed 3D special cases for the actuators which allow them to be placed on the subjects’ skin for the prosthetic application. For the tele-robotic application, the actuators with their cases were stitched on a glove the users can wear during the tele-robotic experiments. The prosthetics experiments were conducted both on amputees and able-bodied using the SoftHand Pro robotic hand designed at the “Centro di ricerca E. Piaggio”, while the tele-robotics experiments were conducted using a humanoid robot present in the laboratory.
Firstly, I made an acquisition, analysis and elaboration of the acceleration signals acquired from accelerometers placed on a robotic hand fingernails. The goal was to obtain a filter able to insulate only the frequencies which could mean something in terms of tactile perception. The acquisition was made thanks to a special C++ code and modifications on the firmware of the control board which gets acceleration signals.
Once chosen the filter that satisfied my requirements, for the prosthetic application, I modified the firmware of the control board that controls the actuators (linear voice coil actuators controlled by PWM) in order to appropriately control actuators. Particularly, I modified the code in order to add the filtering function and many elaborations command and I controlled the output tension in order to not overcome the maximum power for the actuators. For the tele-robotics application, I wrote a ROS code able to acquire data from the accelerometers control board, to filter and elaborate them, and to send them, via modem, to the actuators control board. I also modified the firmware control boards.
For the testing part, I first designed 3D special cases for the actuators which allow them to be placed on the subjects’ skin for the prosthetic application. For the tele-robotic application, the actuators with their cases were stitched on a glove the users can wear during the tele-robotic experiments. The prosthetics experiments were conducted both on amputees and able-bodied using the SoftHand Pro robotic hand designed at the “Centro di ricerca E. Piaggio”, while the tele-robotics experiments were conducted using a humanoid robot present in the laboratory.
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