When a received remote control signal does not satisfy any one of a plurality of conditions for a qualified remote control signal stored in a signal condition storage part, an electric device determines that the remote control signal is not a qualified remote control signal, and when the received remote control signal satisfies any one of the conditions, stores the remote control signal as a qualified remote control signal in a signal storage part. Next, when the received remote control signal matches the qualified remote control signal stored in the signal storage part, control is performed such that the electric device performs a predetermined operation. The conditions for the qualified remote control signal include, for example, that a pulse count is within a range of a predetermined number, and that a pulse width is within a range of a predetermined length.

This invention relates generally to computer systems, and more specifically, to a premise monitoring system. In one embodiment, the invention includes operations of receiving one or more signals containing a device identifier and a device condition from one or more remote alarm monitoring systems; retrieving enhanced information based on the device identifier and/or the device condition; determining one or more communication methods and/or communication destinations based on the device identifier and/or the device condition; and dispatching the enhanced information to the one or more communication destinations using the one or more communication methods.

A telerobotic communications system including a teleoperation center to transmit control data and receive non-control data by wireless connection to and from a first mobile telerobot and indirectly to and from a second mobile telerobot. The first mobile telerobot includes a transceiver for receiving and transmitting control and non-control data, respectively, and also a repeater for relaying control data to a second mobile telerobot and relaying non-control data back to the teleoperation center. The system allows the second mobile telerobot to travel beyond a communications-enabled distance of the wireless signal emitted directly by the teleoperation center. The system may also include wireless repeaters to extend the communications distance between the first and second telerobots.

A method for controlling an operation of a target device using a plurality of input devices is disclosed. The method comprises: receiving from one of the plurality of the input devices a first operation instruction issued to the target device, with a first data format; recognizing the first operation instruction and the first data format; determining that the one of the plurality of the input devices is a first input device corresponding to the first data format; and providing to a user of the target device a recommendation for a second input device, a type of the second input device being different from a type of the first input device, when it is determined that a type of the first operation instruction is identical to a type of a second operation instruction received from the second input device earlier than the reception of the first operation instruction.

A gateway for location at a user premises is provided. Bother users and user devices are registered with the gateway which is provided by a service provider. Users access services, such as video streaming, on their user devices via the gateway. The gateway allows users to share content. The gateway collects information about the user's patterns of behaviour for the system provider, and can be used to directly obtain feedback from the users.

Signals from a remote control device may be received in a first viewing area and retransmitted to a second viewing area to control customer premises equipment (CPE) devices in the second viewing area. In some embodiments, signals are translated for compatibility with the CPE devices in the second viewing area. A repeater in the first viewing area may receive infrared signals encoded with a remote control command and retransmit the remote control command with an RF signal to a receiver in the second viewing area. The repeater may be incorporated into a multimedia processing resource such as a set-top box.

A control system for a rotary laser receives control information transmitted by a communications terminal via a first repeater coupled to the communications terminal and transmits the control information to a controller via a second repeater disposed on a rotary laser. The controller regulates an operating state of the rotary laser based on the control information. The control system enables the communication terminal to wirelessly control and operating state of the rotary laser via cooperation between the first repeater and the second repeater so as to achieve a remote control and to avoid use of a dedicated remote control alone, reduce the system costs and be carried easily.

A wearable device 100 for controlling a controllable device 104 based on an interaction with an object 102 is disclosed. The wearable device 100 comprises a device detection unit 106 for detecting proximity of the object 102, an action detection unit 112 for detecting an action indicative of an interaction of a user wearing the wearable device 100 with the object 102 and a processing unit 108 for generating a control command for controlling the controllable device 104 based on the detected proximity of the object 102 and based on the action indicative of an interaction with the object 102. The wearable device 100 further comprises a communication unit 110 for sending the control command to the controllable device 104. Thereby, the wearable device 100 is able to detect the use of the object 102 and adjust the control parameters of the controllable device 104 to create context- related use conditions. This may improve the control of the controllable device 104 and this may offer new interaction possibilities between the wearable device 100, the controllable device 104 and the object 102.

A portable electronic device with a touch-sensitive display (such as a cellular telephone) provides a wireless remote control for an entertainment device (such as a consumer-electronic device). Based on device-state information that specifies a current state of the entertainment device (which is determined by an audio/video (A/V) hub that communicates with the entertainment device) and one or more related states of the entertainment device, the A/V hub may generate user-interface information that specifies a user interface that includes one or more virtual command icons. Note that the one or more related states are related to the current state in a state diagram by corresponding operations that transition the entertainment device from the current state to the one or more related states. Then, the A/V hub provides the user interface to the portable electronic device. In this way, the A/V hub device dynamically adapts the user interface.

A display apparatus is provided, which includes a remote control signal receiver configured to receive a remote control signal transmitted from at least one among a first remote controller configured to control the display apparatus and at least one second remote controller configured to control at least one neighboring device, a display configured to display a list of function menus corresponding to the received remote control signal, according to information related to the received remote control signal, and a controller configured to control, on a condition that a function menu is selected from the list, an operation that corresponds to the selected function menu.