- Tytuł:
-
DUODEPED dwunastonożny robot kroczący sterowany bezprzewodowo
DUODEPED - a 12-legged walking robot - Autorzy:
-
Gola, B.
Rysiński, J. - Powiązania:
- https://bibliotekanauki.pl/articles/153551.pdf
- Data publikacji:
- 2014
- Wydawca:
- Stowarzyszenie Inżynierów i Techników Mechaników Polskich
- Tematy:
-
robot mobilny
Modbus
sterowanie
monitoring bezprzewodowy
mobile robot
remote control
monitoring system of a mobile robot - Opis:
-
W niniejszym referacie przedstawiono projekt oraz wykonanie dwunastonożnego robota mobilnego. Opracowano własny model komunikacji oraz sterowania. Manewrowanie robotem odbywa się poprzez smartfon, tablet lub komputer stacjonarny. Przygotowano wizualizację w oprogramowaniu inTouch, dzięki której możliwy jest monitoring parametrów związanych z zasilaniem, odległością od przeszkody czy podglądem z bezprzewodowej kamery umieszczonej z przodu robota.
In the paper the design and manufacturing of a twelve-leg (12-leg) mobile robot is described. The robot legs consist of triangles mutually connected by means of special flexible joints. Their original design layout allows for moving the leg end along the versatile trajectories. For example, during performance of a particular step, the lowest positioned leg end moves almost parallelly to the ground. It preserves a smooth movement as well as stability of consecutive steps. The advantages of the design solution including 12 legs are e.g.: high resistance to the loading, a relatively high speed of moving as well as the possibility of overcoming the versatile obstacles when obtaining simultaneously high stability. During motion, 4 legs have a permanent contact with the ground, therefore a thread of loss of stability does not exists in any moment. The central system of DUODEPED is based upon the effective micro-controller PIC24HJ256GP610 made by the “Microchip” firm. The program for the controller was written in the algorithmic language C#. The microcontroller communicates with the bluetooth BTM-222 module by means of the serial transmission module UART. It fully assures a radio transmission to the control device. The prepared software applications allow for intuitive control of the system/object. Control of robot motions is done via a Smartphone, tablet or desktop computer. The prepared visualization is written by means of ‘inTouch’ software. Therefore, it is possible to monitor the robot parameters connected with power supply, distance to an obstacle as well as transmitting view from the wireless camera fixed on the front part of the robot. - Źródło:
-
Pomiary Automatyka Kontrola; 2014, R. 60, nr 8, 8; 645-648
0032-4140 - Pojawia się w:
- Pomiary Automatyka Kontrola
- Dostawca treści:
- Biblioteka Nauki