Abstract: Several embodiments include a portable security device. The portable security device can include one or more sensors. The portable security device can compute a home rhythm pattern utilizing a machine learning engine based on a historical record of real-time sensor feeds. The portable security device can camouflage itself as a digital clock, a digital calendar, or a home security dashboard. The portable security device can define an action trigger that binds a state of the environment around the portable security device to at least a device component action. The portable security device can identify a real-time state of the portable security device amongst a finite set of potential states based on features observed from the sensor feeds. The portable security device can execute the device component action at the portable security device in response to determining that the real-time state matches the action trigger.

Abstract: Several embodiments include a portable security device. The portable security device can include one or more sensors. The portable security device can compute a home rhythm pattern utilizing a machine learning engine based on a historical record of real-time sensor feeds. The portable security device can camouflage itself as a digital clock, a digital calendar, or a home security dashboard. The portable security device can define an action trigger that binds a state of the environment around the portable security device to at least a device component action. The portable security device can identify a real-time state of the portable security device amongst a finite set of potential states based on features observed from the sensor feeds. The portable security device can execute the device component action at the portable security device in response to determining that the real-time state matches the action trigger.

Abstract: Several embodiments include a portable security device. The portable security device can include one or more sensors. The portable security device can compute a home rhythm pattern utilizing a machine learning engine based on a historical record of real-time sensor feeds. The portable security device can camouflage itself as a digital clock, a digital calendar, or a home security dashboard. The portable security device can define an action trigger that binds a state of the environment around the portable security device to at least a device component action. The portable security device can identify a real-time state of the portable security device amongst a finite set of potential states based on features observed from the sensor feeds. The portable security device can execute the device component action at the portable security device in response to determining that the real-time state matches the action trigger.

Abstract: Several embodiments include a portable security device. The portable security device can include one or more sensors. The portable security device can compute a home rhythm pattern utilizing a machine learning engine based on a historical record of real-time sensor feeds. The portable security device can camouflage itself as a digital clock, a digital calendar, or a home security dashboard. The portable security device can define an action trigger that binds a state of the environment around the portable security device to at least a device component action. The portable security device can identify a real-time state of the portable security device amongst a finite set of potential states based on features observed from the sensor feeds. The portable security device can execute the device component action at the portable security device in response to determining that the real-time state matches the action trigger.

Abstract: The present disclosure provides a host electronic device including a main operating circuit, a first peripheral bus, an interface circuit, a second peripheral bus, and a conversion device. The interface circuit is coupled between the second peripheral bus and a host computer for receiving an external command form the host computer through a transmission protocol compatible with a first interface. The conversion device is coupled between the first and the second peripheral bus including an external virtual adapter, an internal virtual adapter, and a network channel. Furthermore, the conversion device encodes and decodes the external command, and produces a decoded external command. A processor of the main operating circuit executes the decoded external command, such that the main operating circuit implements a corresponding operation.

Abstract: The present disclosure provides a host electronic device including a main operating circuit, a first peripheral bus, an interface circuit, a second peripheral bus, and a conversion device. The interface circuit is coupled between the second peripheral bus and a host computer for receiving an external command form the host computer through a transmission protocol compatible with a first interface. The conversion device is coupled between the first and the second peripheral bus including an external virtual adapter, an internal virtual adapter, and a network channel. Furthermore, the conversion device encodes and decodes the external command, and produces a decoded external command. A processor of the main operating circuit executes the decoded external command, such that the main operating circuit implements a corresponding operation.

Abstract: An electronic apparatus and a method for processing an input signal are provided. In the present invention, a signal conversion module is provided, and the signal conversion module registers into an operating system. A raw data corresponding to an input signal is obtained from the operating system through the signal conversion module, when the input signal is received from a human interface device. And a reference value is obtained from a driver of the human interface device through the signal conversion module. The raw data is converted into a coordinate data according to the reference value through the signal conversion module, and the coordinate data is sent to an application program through the signal conversion module.

Abstract: An electronic apparatus and a method for processing an input signal are provided. In the present invention, a signal conversion module is provided, and the signal conversion module registers into an operating system. A raw data corresponding to an input signal is obtained from the operating system through the signal conversion module, when the input signal is received from a human interface device. And a reference value is obtained from a driver of the human interface device through the signal conversion module. The raw data is converted into a coordinate data according to the reference value through the signal conversion module, and the coordinate data is sent to an application program through the signal conversion module.