The present invention relates to a wireless positioning pen with a pressure-sensitive tip comprising an electric power source, optical system (1), inertial sensors and Bluetooth wireless technology, in which a casing (6) is provided with the second casing (7) in the rear, and the top part is provided with holes (61) with fingerboards (8) with buttons; said casing (6) provides a sliding housed body (4) with a battery (10) therein, a head (3) is attached to the front part thereof, and the first cover is (5) provided with a fastening mechanism (51) attached to lower part of the body (4), wherein the said body (4) houses a printed circuit board (2) consisting of the first fixed part (21), the second fixed part (22), the third fixed part (23), and the fourth fixed part (24) mutually interconnected with flexible parts (20), wherein the front body (4) part is provided with the optical system (1) configured for sliding thereof on the PCB fixed part (14) bearing the optical sensor (13) connected through the PCB flexible part (15) to the fourth fixed part (24), wherein the head (3) is provided with a tip button (92) with a light source (16), and in addition, a capacitive sensor (91).

The present invention relates to a wireless positioning pen with a pressure-sensitive tip comprising an electric power source, optical system (1), inertial sensors and Bluetooth wireless technology, in which a casing (6) is provided with the second casing (7) in the rear, and the top part is provided with holes (61) with fingerboards (8) with buttons; said casing (6) provides a sliding housed body (4) with a battery (10) therein, a head (3) is attached to the front part thereof, and the first cover is (5) provided with a fastening mechanism (51) attached to lower part of the body (4), wherein the said body (4) houses a printed circuit board (2) consisting of the first fixed part (21), the second fixed part (22), the third fixed part (23), and the fourth fixed part (24) mutually interconnected with flexible parts (20), wherein the front body (4) part is provided with the optical system (1) configured for sliding thereof on the PCB fixed part (14) bearing the optical sensor (13) connected through the PCB flexible part (15) to the fourth fixed part (24), wherein the head (3) is provided with a tip button (92) with a light source (16), and in addition, a capacitive sensor (91).

A multi mode screen device for a vehicle, the device including a display screen unit with a display screen. The display screen unit is configured to switch an operational state between a first operational mode related to a manual vehicle driving functionality and a second operational mode related to an autonomous vehicle driving functionality. The display screen has a portrait orientation in the first operational mode and a landscape orientation in the second operational mode, and the display screen unit is adapted to be rotatably displaced between the portrait orientation and the landscape orientation.

A multi mode screen device for a vehicle, the device including a display screen unit with a display screen. The display screen unit is configured to switch an operational state between a first operational mode related to a manual vehicle driving functionality and a second operational mode related to an autonomous vehicle driving functionality. The display screen has a portrait orientation in the first operational mode and a landscape orientation in the second operational mode, and the display screen unit is adapted to be rotatably displaced between the portrait orientation and the landscape orientation.

The invention relates to the field of providing a trusted environment for executing an analogue-digital signature. The claimed document-signing device in the form of a stylus includes a protective compartment, in which the following are disposed: a microcontroller with a programme code; a memory with a secret digital signature key; and additionally inertial sensors, which are connected to the microcontroller; a lens; and a camera, which is also connected to the microcontroller. A wireless interface is used in order to communicate with a computer. The inertial sensors serve to verify the handwritten signature of the user, while the lens and camera serve to carry out a comparison with the text of an electronic document uploaded via the wireless interface. In this way it is ensured that verified information enters the trusted environment of the stylus.

An augmented reality surgical system includes a head mounted display (HMD) with a see-through display screen, a motion sensor, a camera, and computer equipment. The motion sensor outputs a head motion signal indicating measured movement of the HMD. The computer equipment computes the relative location and orientation of reference markers connected to the HMD and to the patient based on processing a video signal from the camera. The computer equipment generates a three dimensional anatomical model using patient data created by medical imaging equipment, and rotates and scales at least a portion of the three dimensional anatomical model based on the relative location and orientation of the reference markers, and further rotate at least a portion of the three dimensional anatomical model based on the head motion signal to track measured movement of the HMD. The rotated and scaled three dimensional anatomical model is displayed on the display screen.

An augmented reality surgical system includes a head mounted display (HMD) with a see-through display screen, a motion sensor, a camera, and computer equipment. The motion sensor outputs a head motion signal indicating measured movement of the HMD. The computer equipment computes the relative location and orientation of reference markers connected to the HMD and to the patient based on processing a video signal from the camera. The computer equipment generates a three dimensional anatomical model using patient data created by medical imaging equipment, and rotates and scales at least a portion of the three dimensional anatomical model based on the relative location and orientation of the reference markers, and further rotate at least a portion of the three dimensional anatomical model based on the head motion signal to track measured movement of the HMD. The rotated and scaled three dimensional anatomical model is displayed on the display screen.

The present invention discloses methods and systems for performing at least one action at a system according to a user's gesture information. The required steps comprises of capturing the user's gestures information by a mobile apparatus, wherein the apparatus comprises an antenna, a processor, a storage medium, at least one accelerometer, wherein the accelerometer has at least 3 axis; comparing gesture information against one or more predefined gesture information at the mobile apparatus and when the gesture information matches a predefined gesture information, the mobile apparatus selects a first identity based on the predefined gesture information, sends encrypted information to a system through a reader wherein the encrypted information comprises the predefined gesture information, the first identity, a timestamp, and a device identity. The system performs at least one action according to the encrypted information. When the gesture information does not match any pre-defined gesture information, the mobile apparatus sends a failure notice to the user. The mobile apparatus or device does not send the encrypted information unless the device is physically close to the reader by a first wireless signal strength.

The present invention discloses methods and systems for performing at least one action at a system according to a user's gesture information. The required steps comprises of capturing the user's gestures information by a mobile apparatus, wherein the apparatus comprises an antenna, a processor, a storage medium, at least one accelerometer, wherein the accelerometer has at least 3 axis; comparing gesture information against one or more predefined gesture information at the mobile apparatus and when the gesture information matches a predefined gesture information, the mobile apparatus selects a first identity based on the predefined gesture information, sends encrypted information to a system through a reader wherein the encrypted information comprises the predefined gesture information, the first identity, a timestamp, and a device identity. The system performs at least one action according to the encrypted information. When the gesture information does not match any pre-defined gesture information, the mobile apparatus sends a failure notice to the user. The mobile apparatus or device does not send the encrypted information unless the device is physically close to the reader by a first wireless signal strength.

An information processing apparatus includes a memory storing a program and at least one processor that executes the program to implement processes of detecting a speed of motion of a user based on motion information relating to a motion of the user that is detected by a detection device, and generating position information of a position indication display information item, which is displayed on a display device and indicates a position designated by the user, based on the motion information relating to the motion of the user. The position information of the position indication display information item is generated by restricting a moving direction of the position indication display information item to a predetermined direction when the detected speed of motion of the user does not meet a predetermined speed condition.