A system that comprises a memory device storing instructions, and a processing device communicatively coupled to the memory device. The processing device executes the instructions to: receive user data obtained from records associated with a user; generate a modified treatment plan based on the user data; and send, to a treatment apparatus accessible to the user, the modified treatment plan, wherein the modified treatment plan causes the treatment apparatus to update at least one operational aspect of the treatment apparatus, and update at least one operational aspect of at least one other device communicatively coupled to the treatment apparatus.

A computer-implemented system for processing medical claims is disclosed. The system includes a medical device configured to be manipulated by a user while the user performs a treatment plan; a patient interface associated with the medical device, the patient interface comprising an output configured to present telemedicine information associated with a telemedicine session; and a processor. During the telemedicine session, the processor is configured to receive information from a medical device. Using the device-generated information, the processor is further configured to determine device-based medical coding information. The processor is further configured to transmit the device-based medical coding information to a claim adjudication server.

A human power strengthening machine consisting of a frame, hand pedals, foot pedals and a flywheel coupled to said frame, with hand grips and foot-bindings coupled to said pedals wherein the grips and bindings allow the user to crank said pedals and drive a flywheel. There is a unit, which provides magnetic resistance to the flywheel. Also coupled to the frame can be a display with microphone for voice control of magnetic resistance to the flywheel. In this case there can be, for example, a flywheel, which is driven by the pedals, a magnetic resistance unit and display with microphone for voice control of flywheel resistance, plus non-driven casters as well.

A pedaling exercise machine according to the present embodiment includes: a pair of right and left pedal portions on which feet of a user are placed; a rotation mechanism that rotates the pedal portions when the feet of the user step on the pedal portions; a seating portion that is disposed on a rear end side of the rotation mechanism separately from the rotation mechanism and on which the user is seated; a fixing member disposed on a front end side of the rotation mechanism; and a belt member that is detachably connected to the seating portion and provided to extend from the fixing member to the seating portion.

To provide a technique for helping a user to start a foot-pedaling exercise when he/she performs the foot-pedaling exercise. A foot-pedaling exercise system includes: a pedal unit including a pair of pedals; an equipment main body configured to rotatably support the pedal unit; a servomotor serving as a rotary actuator configured to rotate the pedal unit; an infrared sensor as an exercise monitoring sensor configured to detect the performance or the non-performance of a foot-pedaling exercise performed using the pedal unit; and a controller. The controller controls, when it has been determined that the foot-pedaling exercise is not being performed based on the result of the detection in the infrared sensor, the servomotor to cause the servomotor to rotate the pedal unit.

A training device with changeable operating direction is disclosed, including a seat, which is disposed horizontally on an XY plane, with the XY plane being constituted by an X-direction and a Y-direction that are perpendicular to each other; a stand, which is pivoted on the seat by a pivot shaft in a Z-direction, with the Z-direction being perpendicular to the XY plane; a vertical turntable, which is pivoted on the stand; and a first grip and a second grip, with the first grip and/or the second grip driving the vertical turntable to rotate by applied force, the stand rotating relative to the seat within a rotation angle selectively against the pivot shaft, and being fixed on the seat by a securing unit after rotation.

Disclosed are systems and methods for a computerized framework that leverages artificial intelligence (AI) / machine learning (ML) mechanisms to assign selected individuals to military operations. The disclosed framework comparatively analyzes an ops sheet of a military operation and profile data related to a user(s), and automatically determines user(s) who are optimal for the operation. The determined user or users possess the physical and/or intellectual capabilities to accurately and efficiently, with respect to real-world and electronic resources, perform and complete the operation. The disclosed framework provides a computerized platform that selects users for highly specific tasks based on the users’ analyzed skill sets, and based on computerized determinations of how such users are predicted to perform using those skill sets, securely and/or confidentially provides the users access to information related to the operation.

A seated treadmill has a structure with a front portion and a rear portion. A front roller is rotatably mounted on the front portion of the structure, a rear roller is rotatably mounted on the rear portion of the structure, and a belt circumscribes the front and rear rollers. The front and rear rollers are much closer together than prior art treadmills, typically about 10-30 inches. The treadmill may further include a remote control for controlling operation of the treadmill, and a shutoff switch in the event that too much force is placed upon the treadmill, such as if the user attempts to stand on the treadmill.

A treatment apparatus includes a machine configured to be manipulated by a patient to perform a regimen for rehabilitation and one or more internal sensors configured to generate data indicating performance of the regimen by the patient. The machine is configured to receive at least one of a first input from a clinician interface and a second input from a patient interface. The first input corresponds to a prompt, presented on the clinician interface, to modify the regimen based on the data indicating performance of the regimen and the second input corresponds to at least one response to a plurality of questions, presented on the patient interface, pertaining to a current or past physical condition of the patient. The machine is further configured, responsive to the at least one of the first input and the second input, to selectively stop or prevent operation of the machine by the patient.

A disorder detection system includes: a pair of left and right footrests configured so that left and right feet of a user are respectively placed thereon to perform an exercise of legs therewith; a pair of left and right slide mechanisms for enabling the footrests to slide in a front/rear direction with respect to a sitting part, the slide mechanisms including a resistance part for applying a resistance to the sliding; a moving mechanism for enabling the left and right slide mechanisms and the footrests to move independently of each other; an angle detection unit for detecting angles of joints of left and right lower legs of the user around a roll axis, a yaw axis, and a pitch axis; and a display unit for displaying the detected angles of the joints of the left and right lower legs of the user around the roll, yaw, and pitch axes.