A collaborative robotized system comprises: a mobile platform furnished with running device, with an electric motor propulsion assembly, and with a longitudinal mechanical linkage assembly comprising an articulation; an electrical power source; manual control device of the system; remote control dev
A collaborative robotized system comprises: a mobile platform furnished with running device, with an electric motor propulsion assembly, and with a longitudinal mechanical linkage assembly comprising an articulation; an electrical power source; manual control device of the system; remote control device of the system; a computer assembly of at least one computer; hardware-incorporating device suitable for integrating sensors and effectors, and software-incorporating device suitable for integrating software elements; and management device for managing integrated sensorimotor behaviors, suitable for arbitrating implementations of several sensorimotor behaviors in parallel.
대표청구항▼
1. A collaborative robotized system comprising: a mobile platform (PFM) furnished with running means, with an electric motor propulsion assembly (ME1, ME2, ME3, ME4), and with a longitudinal mechanical linkage assembly (ELM) comprising an articulation (ART);an electrical power source;manual means of
1. A collaborative robotized system comprising: a mobile platform (PFM) furnished with running means, with an electric motor propulsion assembly (ME1, ME2, ME3, ME4), and with a longitudinal mechanical linkage assembly (ELM) comprising an articulation (ART);an electrical power source;manual means of control (CM) of the system;means of remote control (CD) of the system;a computer assembly of at least one computer (CALC);hardware-incorporating means suitable for integrating sensors and effectors, and software-incorporating means (CALC) suitable for integrating software elements; andmanagement means (GES) for managing integrated sensorimotor behaviors (CS), suitable for arbitrating implementations of several sensorimotor behaviors (CS) in parallel on the basis of a priori knowledge about the performance of said sensorimotor behaviors (CS) as a function of the environment of the mobile platform (PFM), and suitable for operating with adjustable autonomy varying from complete autonomy to teleoperation, via partial autonomy of collaboration with a teleoperator, for the various sensorimotor behaviors (CS). 2. The system as claimed in claim 1, wherein said computer assembly (CALC) has parallel processors comprising elementary processors able simultaneously to execute one and the same instruction on different data belonging to a data structure. 3. The system as claimed in claim 1, wherein said articulation (ART) is furnished with an electric motor controlled by means for managing the stability of the platform which are furnished with means for measuring the inclination of the running surface. 4. The system as claimed in claim 1, wherein the articulation (ART) is a pivot. 5. The system as claimed in claim 1, further comprising a millimetric radar, a laser telemeter, and fusion means for merging the data delivered by said radar and said telemeter. 6. The system as claimed in claim 1, wherein said remote control means comprise a wireless communication tactile element (CD), and/or a head-up sight, and/or a control handle. 7. The system as claimed in claim 1, wherein said remote control means (CD) comprise a force-feedback element. 8. The system as claimed in claim 1, wherein said platform (PFM) is furnished with means for transmitting information representative of the exterior environment of the platform, and said remote control means (CD) comprise means for viewing the exterior environment of the platform (PFM). 9. The system as claimed in claim 8, further comprising means for selecting an element to be reached by the mobile platform (PFM) on the basis of said means for viewing the exterior environment of the platform. 10. The system as claimed in claim 1, of reduced bulk, of width less than 70 cm and of mass less than 100 kg. 11. The system as claimed in claim 1, wherein said mobile platform (PFM) is suitable for transporting a human being. 12. The system as claimed in claim 1, wherein said mechanical linkage assembly (ELM) is dismantlable. 13. The system as claimed in claim 1, in which said management means (GES) for managing integrated sensorimotor behaviors (CS), are adapted to arbitrate implementations of several sensorimotor behaviors (CS) in parallel, furthermore on the basis of a priori knowledge of performance of the algorithm implemented by a sensorimotor behavior (CS), and of a confidence index regarding the ability of the algorithm to correctly accomplish the sensorimotor behavior (CS).
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이 특허에 인용된 특허 (10)
Field, J. Douglas; Gansler, Michael T.; Heinzmann, John D.; Stevens, Jon M., Apparatus and method for control of a vehicle.
Kamen, Dean L.; Ambrogi, Robert R.; Duggan, Robert J.; Field, J. Douglas; Heinzmann, Richard Kurt; Lambrechts, William; McCambridge, Matt; Perry, Christopher; Tellam, Mark E., Dynamic balancing vehicle with a seat.
Kamen, Dean L.; Amsbury, Burl; Field, J. Douglas; Langenfeld, Christopher C.; Morrell, John B.; Pompa, Jonathan B.; Stevens, Jon M.; Lund, Jeremy B., Guided control of a transporter.
Littmann Francois (Montigny le Bretonneux FRX) Villedieu Eric (Palaiseau FRX), Modular articulated vehicle manoevring among obstacles and modular member incorporated in said vehicle.
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