Tools and techniques are described to automate commissioning of physical spaces. Controllers have access to databases of the devices that are controlled by them, including wiring diagrams and protocols, such that the controller can automatically check that each wire responds correctly to stimulus from the controller. Controllers also have access to databases of the physical space such that they can check that sensors in the space record the correct information for device activity, and sensors can cross-check each other for consistency. Once a physical space is commissioned, incentives can be sought based on commissioning results.

A hover touch compensation system and method may detect and track a hover position of a pointing/selecting device, such as a user's finger, relative to an input surface of a user interface, and may detect a point at which the pointing/selecting device initiates a movement toward the input surface of the user interface. The system may identify an intended contact point on the user interface based on the hover position of the pointing/selecting device relative to the input surface of the user interface at the point at which the movement toward the user interface is detected.

The present disclosure provides an accidental-touch prevention method and apparatus for a mobile terminal. The method includes: receiving by the touch screen IC layer a touch instruction from a user, and reporting a touch point on a touch track corresponding to the touch instruction to the driver layer; determining by the driver layer whether a start point of the touch track falls within a pre-set accidental-touch prevention area; when the start point of the touch track falls within the pre-set accidental-touch prevention area, acquiring by the driver layer a distance on the touch track between a touch point after the start point and the start point, and performing accidental-touch prevention processing based on the distance.

Disclosed is a system and method for a capacitive sensing device. The method includes transmitting a stimulation signal to a driving channel of the capacitive sensing device. The stimulation signal includes a plurality of sub-stimulation signals. Each of the sub-stimulation signals is characterized by an amplitude and a frequency. The frequencies of the sub-stimulation signals are orthogonal. The method further includes receiving a charge signal from a sensing channel of the capacitive sensing device. The charge signal is generated from the stimulation signal through a capacitance between the driving channel and the sensing channel. The method further includes detecting, from the charge signal, a plurality of sub-charge signal amplitudes at the frequencies of the sub-stimulation signals, and reporting a value about the capacitance from the sub-charge signal amplitudes. The method benefits the capacitive sensing device for increased noise immunity, reduced dynamic range, and reduced power consumption.

An electronic device including a touch screen configured to display at least one graphic object for executing an operation on the electronic device; at least first and second magnetic sensors configured to detect a spatial position of an input device having a magnetic field generating unit; and a controller configured to in response to a touch applied to the graphic object using the input device for executing the operation, execute a hold mode of holding the execution of the operation while the spatial position of the input device is moved away from the touch screen while being maintained within a reference range, and release the hold mode and execute the operation when the spatial position of the input device is moved out of the reference range.

In some embodiments, a keyboard is located proximate to a touch sensor that is operable to perform one or more keyboard functions. The state of a touch sensor and/or interaction of an electronic device with the touch sensor is controlled or altered based on detection that an object is proximate to the keyboard. In other embodiments, input to input devices that are proximate are screened. The input devices are located sufficiently proximate that a first input device falsely detects input when a user is actually providing input to a second input device. In particular examples, a location of a user or other object relative to the second input device is determined using a proximity or other sensor. Based on the location, the electronic device determines the user or other object is in position to use the second input device and screens out or filters input from the first input device.

A method of foreign matter rejection for multi-touch capacitive touch screens includes performing touch detection in both self-capacitance mode and mutual capacitance mode. By combining information from both modes, a distinction is identified between wanted touches, such as by a finger or stylus, and unwanted touches such as by foreign matter.

A touch sensor detector system and method incorporating an interpolated sensor array is disclosed. The system and method utilize a touch sensor array (TSA) configured to detect proximity/contact/pressure (PCP) via a variable impedance array (VIA) electrically coupling interlinked impedance columns (IIC) coupled to an array column driver (ACD), and interlinked impedance rows (IIR) coupled to an array row sensor (ARS). The ACD is configured to select the IIC based on a column switching register (CSR) and electrically drive the IIC using a column driving source (CDS). The VIA conveys current from the driven IIC to the IIC sensed by the ARS. The ARS selects the IIR within the TSA and electrically senses the IIR state based on a row switching register (RSR). Interpolation of ARS sensed current/voltage allows accurate detection of TSA PCP and/or spatial location.

An accidental touch prevention method and apparatus, and a storage medium, relating to the field of intelligent terminals, and used for solving the problem in the prior art of input focus movement or loss caused by an accidental touch on a screen. The method is applied to an intelligent terminal having a folding screen. In the method, when one screen of the intelligent terminal is in an editing state, event monitoring is carried out on other screens, and if it is detected that a click event occurs on the other screens, the event is intercepted, so that when a user edits content in one screen, if the user accidentally touches the other screens, the input focus is not changed, normal editing f the user is guaranteed, and user experience is improved.

A controller apparatus includes a capacitive or resistive touch pad having a touch sensitive surface sized sufficient for operation by two human feet. One or more markers are coupled to the touch pad. The markers are configured for use by a computer system for room mapping.