A multi-configurable toy vehicle is described. The multi-configurable toy vehicle comprises a cab and a vehicle body. The cab comprises a first set of one or more wheels and the vehicle body comprises a second set of one or more wheels. The vehicle body is slidably coupled to the cab between a collapsed and expanded configuration. The vehicle body comprises a floor and a platform pivotally coupled to the floor between an upright position and an open position. A trailer may be coupled to the multi-configurable toy vehicle.

An electronic system for stabilizing steering of a model vehicle may use different settings depending upon the RC model vehicle to be controlled. Different vehicles have different dynamic operation and responses and therefore may require different Electronic Steering Stability (ESS) system settings. The settings may be different gains, or different coefficients used with the control system algorithms. Settings may also mean that a completely different control algorithm may be used. For example, a vehicle A may be controlled adequately with a P control algorithm, while a vehicle B may require a complete PID control algorithm to be implemented.

An electronic system for stabilizing steering of a model vehicle may use different settings depending upon the RC model vehicle to be controlled. Different vehicles have different dynamic operation and responses and therefore may require different Electronic Steering Stability (ESS) system settings. The settings may be different gains, or different coefficients used with the control system algorithms. Settings may also mean that a completely different control algorithm may be used. For example, a vehicle A may be controlled adequately with a P control algorithm, while a vehicle B may require a complete PID control algorithm to be implemented.

A mobile device includes a body, at least one drive wheel coupled with the body, a control structure configured to automatically control rotational movements of the at least one drive wheel so as to selectively control movement of the body, and a motion detection system coupled with the control structure and configured to detect a plurality of different movements of a user. The control structure controls rotational movements of the at least one drive wheel to effect different movements of the body based upon different detected movements of the user.

A mobile device includes a body, at least one drive wheel coupled with the body, a control structure configured to automatically control rotational movements of the at least one drive wheel so as to selectively control movement of the body, and a motion detection system coupled with the control structure and configured to detect a plurality of different movements of a user. The control structure controls rotational movements of the at least one drive wheel to effect different movements of the body based upon different detected movements of the user.

The invention relates to a system and a method for remote control of an unmanned electric ground vehicle provided with at least one electric engine and a control unit for at least one engine. The invention also relates to the use of a digital handheld device provided as a remote control unit. According to the invention, a receiver unit is functionally connected to a control unit in said vehicle for receiving commands remotely, as the remote control unit sends command signals to the vehicle. The remote control unit is configurable to store at least one instruction set for a vehicle, each instruction set having at least one command and at least one command parameter. The command parameter indicates a condition to be applied to a command in the instruction set, which will affect the command signal and thus the behavior of the vehicle.

The invention relates to a system and a method for remote control of an unmanned electric ground vehicle provided with at least one electric engine and a control unit for at least one engine. The invention also relates to the use of a digital handheld device provided as a remote control unit. According to the invention, a receiver unit is functionally connected to a control unit in said vehicle for receiving commands remotely, as the remote control unit sends command signals to the vehicle. The remote control unit is configurable to store at least one instruction set for a vehicle, each instruction set having at least one command and at least one command parameter. The command parameter indicates a condition to be applied to a command in the instruction set, which will affect the command signal and thus the behavior of the vehicle.

An electronic system for stabilizing steering of a model vehicle may provide a curvature steering control of an RC vehicle. The approximate curvature control of the RC vehicle determined using error integration to achieve full steering. Application of a leaky integrator may be used to minimize steering memory. The leak factor may be based off gain scheduling of the steering input.

An electronic system for stabilizing steering of a model vehicle may provide a curvature steering control of an RC vehicle. The approximate curvature control of the RC vehicle determined using error integration to achieve full steering. Application of a leaky integrator may be used to minimize steering memory. The leak factor may be based off gain scheduling of the steering input.

The present disclosure discloses an information processing system. The system includes at least two toy battle devices and control devices corresponding to the toy battle devices. A first control device is configured to send attack information to a first toy battle device. The first toy battle device is configured to modulate the attack information into a laser signal, and emit the laser signal. A second toy battle device is configured to receive the laser signal by using a laser receiving component, and obtain the attack information by demodulating the laser signal by using a demodulation circuit; and send the attack information to a second control device; determine an attacked status of the second toy battle device according to the attack information; and send a feedback instruction to the second toy battle device, the feedback instruction indicating the attacked status of the second toy battle device.