An information processing apparatus according to the present disclosure includes a display control unit that causes a display device to display a mark for a virtual object at an instruction position that is a position determined on the basis of a plurality of directions indicated by a user.

The invention relates to a system (100) and a method (500) for controlling a cardiac support system (10), comprising a first extracorporeal control device (110), wherein the first control device (110) is or can be connected to the cardiac support system (10) with a wire or a first coil (150) for communication and/or energy transfer, and comprising a second extracorporeal control device (120) which is wirelessly connected to the first control device (110). The invention also relates to a cardiac support system (10) having a control system according to the invention (100).

A method for receiving inputs from touch panels is described. The method may include checking for a first input from a first touch panel of a computing device. The method may also include checking for a second input from a second touch panel of the computing device; wherein the first and second inputs are related to a gesture. The method may also include receiving the first and second input simultaneously. The method may also include performing an operation at the computing device based on the simultaneous input from the first touch panel and the second touch panel.

A method includes detecting presence of a handheld device in proximity of a touch enabled device and negotiating communication capabilities between the handheld device and a digitizer system of the touch enabled device. At least one of the handheld device and the digitizer system is configured to match a defined communication capability of the other of the at least one of the handheld device and digitizer system. Input from the handheld device is tracked via an electrostatic communication channel between the handheld device and the digitizer system based on the defined communication configuration.

Systems and methods for providing a virtual space for multiple devices can include a first device having at least one sensor configured to acquire a spatial information of a physical space of the first device. The first device may include at least one processor configured to establish, according to the acquired spatial information, a virtual space corresponding to the physical space, that is accessible by a user of the first device via the first device. The at least one processor may further be configured to register a second device within the physical space, to allow a user of the second device to access the virtual space via the second device.

In accordance with some embodiments, systems, apparatus, interfaces, methods, and articles of manufacture are provided for ascertaining aspects of a presentation and/or of an audience member. A presentation remote can be used to obtain information about the presentation and provide it to the audience member.

A projection apparatus according to the present invention, includes at least one memory and at least one processor which function as: a control unit configured to control to project an image on a projection surface; a detection unit configured to detect an operation performed on the projection surface using a pointer; and a processing unit configured to perform generation and editing of a graphic in response to the operation, wherein the processing unit is able to edit a first graphic formed using a first pointer and a second graphic formed using a second pointer independently of each other.

A sensor controller is provided which is capable of allocating time slots to multiple active pens in a timely manner according to functions of each active pen. The sensor controller, in operation, supplies a beacon signal, which serves as a reference time for a frame formed of a plurality of time slots; acquires, from a downlink signal returned from one of a first active pen including a pen tip electrode and a second active pen including a pen tip electrode and a peripheral electrode in response to the beacon signal, functional information indicating whether or not one of the active pens that has transmitted the downlink signal includes the peripheral electrode; and determines based on the acquired functional information whether to allocate one or more of the time slots to only the pen tip electrode or to each of the pen tip electrode and the peripheral electrode.

A function key scan code is received from an external keyboard communicatively connected to the computing device. The function key scan code corresponds to a function key of the external keyboard having been pressed. Whether function keys of an internal keyboard of the computing device are configured in an action key mode is determined. In response to determining that the function keys of the internal keyboard of the computing device are configured in the action key mode, the function key scan code received from the external keyboard is converted to an action key scan code.

A multi-screen display system and a mouse switching control method are disclosed. The mouse switching control method is applied to a multi-screen display system comprising a main display screen and at least one extended display screen, and comprises: obtaining user images collected by cameras installed on the main display screen and the extended display screen respectively; inputting the user images into a neural network model, and predicting a screen that a user is currently paying attention to using the neural network model to obtain a prediction result; and controlling to switch a mouse to the screen that a user is currently paying attention to according to the prediction result. The system and mouse switching control method are based on self-learning of visual attention, predict the current screen operated by the user, automatically switch the mouse to the corresponding screen position, and improve the user experience.