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A system for adjusting a position of a wheelchair occupant includes a sensor configured to generate sensor data based on the position of the occupant, an adjustable cable system coupled to a support point on the wheelchair and configured to be coupled to a support point on the occupant's clothing, a

A system for adjusting a position of a wheelchair occupant includes a sensor configured to generate sensor data based on the position of the occupant, an adjustable cable system coupled to a support point on the wheelchair and configured to be coupled to a support point on the occupant's clothing, and a processing circuit. The cable system is configured to extend and retract at least one cable to adjust the position of the occupant, and the processing circuit is configured to determine the position of the occupant in the wheelchair based on the sensor data and adjust the cable based on the determined position of the occupant.

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1. A system for adjusting a position of a wheelchair occupant, comprising: a sensor configured to generate sensor data based on the position of the occupant in the wheelchair, the sensor data indicative of a distance a body part of the occupant is from a reference point on the wheelchair;an adjustab

1. A system for adjusting a position of a wheelchair occupant, comprising: a sensor configured to generate sensor data based on the position of the occupant in the wheelchair, the sensor data indicative of a distance a body part of the occupant is from a reference point on the wheelchair;an adjustable cable system coupled to a support point on the wheelchair and configured to be coupled to a support point on the occupant's clothing, wherein the cable system is configured to extend and retract at least one cable to adjust the position of the occupant; anda processing circuit configured to: determine the position of the occupant in the wheelchair based on the sensor data, wherein determining the position of the occupant includes comparing the position of the occupant to a defined position in order to determine a misalignment of the occupant, and wherein comparing the position of the occupant to the defined position includes determining whether the distance the body part of the occupant is from the reference point on the wheelchair is greater than a threshold; andselectively extend or retract the cable to adjust the position of the occupant in the wheelchair based on the determined position of the occupant, and an inertial force of at least one of the wheelchair occupant and the wheelchair calculated by the processing circuit based on a motion of the wheelchair, wherein adjusting the position of the occupant includes reducing the distance the body part of the occupant is from the reference point. 2. The system of claim 1, wherein the defined position is a proper position, and the processing circuit is configured to adjust the cable to move the occupant towards the proper position. 3. The system of claim 1, wherein the defined position is an improper position, and the processing circuit is configured to adjust the cable to move the occupant away from the improper position; and wherein the defined position is customized based on a biometric of the wheelchair occupant. 4. The system of claim 1, wherein adjusting the cable is further based on a speed of the wheelchair. 5. The system of claim 1, wherein adjusting the at least one cable is further based on a motion of the wheelchair. 6. The system of claim 5, wherein the motion is a predicted motion based on a map indicating at least one of a pathway, a doorway, and an obstacle. 7. The system of claim 1, wherein adjusting the cable is further based on a tension of the cable, and wherein the tension is based on feedback from a stress sensor. 8. The system of claim 7, wherein the cable is adjusted according to a passive mode, and wherein adjusting the cable according to the passive mode includes increasing or decreasing a length of the cable to allow a range of movement of the occupant. 9. The system of claim 8, wherein adjusting the cable according to the passive mode includes increasing or decreasing a length of the cable to maintain a defined tension of the cable. 10. The system of claim 7, wherein the cable is adjusted according to an active mode, and wherein adjusting the cable according to the active mode includes decreasing a length of the cable in order to move the occupant, and wherein the length is decreased based on a defined tensile limit. 11. The system of claim 1, wherein the sensor includes a camera configured to acquire image data; and wherein the processing circuit is configured to determine the position of the wheelchair occupant by implementing a body detection algorithm on the image data. 12. The system of claim 1, wherein the sensor is integrated along a perimeter of the wheelchair and configured to provide a signal to the processing circuit based on a body part of the occupant protruding outside a contour of the wheelchair. 13. The system of claim 1, wherein the sensor includes a plurality of RFID sensors disposed along a perimeter of the wheelchair, wherein at least one RFID tag is coupled to the occupant, and wherein the processing circuit is configured to determine a distance from the at least one RFID tag to the plurality of RFID sensors. 14. The system of claim 1, wherein the sensor includes a pressure sensor configured to generate pressure data at a particular location on the wheelchair, and wherein the sensor data includes the pressure data. 15. A method of adjusting a position of a wheelchair occupant, comprising: connecting an elongate material adjustment system to clothing of the occupant, wherein the elongate material adjustment system is coupled to a support point on the wheelchair and configured to be coupled to a support point on the occupant's clothing, and wherein the elongate material adjustment system is configured to extend and retract at least one elongate material to adjust the position of the occupant;generating sensor data with a sensor, wherein the sensor data is based on the position of the occupant in the wheelchair, and wherein the sensor data is indicative of a distance a body part of the occupant is from a reference point on at least one of a seat portion and a backrest portion of the wheelchair;determining the position of the occupant in the wheelchair based on the sensor data, wherein determining the position of the occupant includes comparing the position of the occupant to a defined position in order to determine a misalignment of the occupant, wherein the misalignment of the occupant is based on a location of a body part within the wheelchair, and wherein comparing the position of the occupant to the defined position includes determining whether the distance the body part of the occupant is from the reference point on the at least one of the seat portion and the backrest portion of the wheelchair is greater than a threshold;selectively retracting the elongate material to adjust the position of the occupant in the wheelchair based on the determined position of the occupant, wherein adjusting the position of the occupant includes reducing the distance the body part of the occupant is from the reference point on the at least one of the seat portion and the backrest portion of the wheelchair; andautomatically disconnecting, without human intervention, the elongate material adjustment system from the clothing of the occupant based on determining that the wheelchair is at least one of stationary for a threshold period of time and at a destination. 16. The method of claim 15, further comprising adjusting the elongate material to move the occupant towards a proper position, wherein the defined position is the proper position. 17. The method of claim 15, further comprising adjusting the elongate material to move the occupant away from an improper position, wherein the defined position is the improper position. 18. The method of claim 15, wherein adjusting the elongate material is further based on a speed of the wheelchair. 19. The method of claim 15, wherein adjusting the elongate material is further based on a motion of the wheelchair. 20. The method of claim 19, wherein the motion is an angular motion. 21. The method of claim 15, wherein adjusting the elongate material is further based on a tension of the elongate material, and wherein the tension is based on feedback from a stress sensor. 22. The method of claim 21, wherein the elongate material is adjusted according to a passive mode, and wherein adjusting the elongate material according to the passive mode includes increasing or decreasing a length of the elongate material to allow a range of movement of the occupant. 23. The method of claim 22, wherein adjusting the elongate material according to the passive mode includes increasing or decreasing a length of the elongate material to maintain a defined tension of the elongate material. 24. The method of claim 23, wherein the defined tension is selected in order to maintain tautness but not impede movement of the occupant. 25. The method of claim 21, wherein the elongate material is adjusted according to an active mode, and wherein adjusting the elongate material according to the active mode includes decreasing a length of the elongate material in order to move the occupant, and wherein the length is decreased based on a defined tensile limit. 26. The method of claim 25, wherein the tensile limit is defined in real-time based on feedback from a stress sensor. 27. The method of claim 15, further comprising generating an alert using a feedback device, wherein the warning is based on the position of the occupant. 28. A non-transitory computer-readable medium having instructions stored thereon, the instructions forming a program executable by a processing circuit to adjust a position of a wheelchair occupant, the instructions comprising: instructions for receiving sensor data from a sensor, wherein the sensor data is based on the position of the occupant in the wheelchair, and wherein the sensor data is indicative of a distance a body part of the occupant is from a reference point on at least one of a seat portion and a backrest portion of the wheelchair;instructions for determining the position of the occupant in the wheelchair based on the sensor data, wherein determining the position of the occupant includes comparing the position of the occupant to a defined position in order to determine a misalignment of the occupant, and wherein comparing the position of the occupant to the defined position includes determining whether the distance the body part of the occupant is from the reference point on the at least one of the seat portion and the backrest portion of the wheelchair is greater than a threshold;instructions for controlling an elongate material adjustment system to selectively retract an elongate material to adjust the position of the occupant in the wheelchair based on the determined position of the occupant and further based on an impending motion of the wheelchair, wherein the elongate material adjustment system is coupled to a support point on the wheelchair and configured to be coupled to a support point on the occupant's clothing, and wherein the elongate material adjustment system is configured to extend and retract at least one elongate material to adjust the position of the occupant to reduce the distance the body part of the occupant is from the reference point on the at least one of the seat portion and the backrest portion of the wheelchair while keeping the occupant in direct physical contact with the at least one of the seat portion and the backrest portion of the wheelchair; andinstructions for comparing the position of the occupant to dimensions of the wheelchair, wherein the dimensions for the wheelchair are based on a model of the wheelchair accessible by the processing circuit, and wherein the model of the wheelchair is pre-stored or determined by the processing circuit in real-time. 29. The non-transitory computer-readable medium of claim 28, wherein determining the position of the occupant includes comparing the position of the occupant to a defined position in order to determine a misalignment of the occupant. 30. The non-transitory computer-readable medium of claim 29, wherein the instructions further comprise instructions for adjusting the elongate material to move the occupant towards a proper position, wherein the defined position is the proper position. 31. The non-transitory computer-readable medium of claim 29, wherein the instructions further comprise instructions for adjusting the elongate material to move the occupant away from an improper position, wherein the defined position is the improper position. 32. The non-transitory computer-readable medium of claim 28, wherein adjusting the elongate material is further based on a tension of the elongate material that is based on feedback from a stress sensor, wherein the elongate material is adjusted according to a passive mode, and wherein adjusting the elongate material according to the passive mode includes increasing or decreasing a length of the elongate material to allow a range of movement of the occupant. 33. The non-transitory computer-readable medium of claim 32, wherein adjusting the elongate material according to the passive mode includes increasing or decreasing a length of the elongate material to maintain a defined tension of the elongate material. 34. The non-transitory computer-readable medium of claim 28, wherein adjusting the elongate material is further based on a tension of the elongate material that is based on feedback from a stress sensor, wherein the cable is adjusted according to an active mode, and wherein adjusting the elongate material according to the active mode includes decreasing a length of the elongate material in order to move the occupant, and wherein the length is decreased based on a defined tensile limit.