摘要:
A method and an apparatus for providing a motion library, adapted to a service end device to provide a customized motion library supporting recognition of at least one motion pattern for a user end device. At least one sensing component disposed on the user end device is determined. At least one motion group is determined according to the determined sensing components, wherein each motion group comprises at least one motion pattern. The at least one motion pattern is selected and a motion database to is queried to display a list of the motion groups corresponding to the selected motion patterns and the motion groups are selected from the list. The motion patterns belonging to the motion groups are selected to re-compile the customized motion library, which is provided for the user end device, so as to enable the user end device to recognize the selected motion patterns.
摘要:
A motion sensing system includes a hand-held device and a receiver device. The hand-held device includes a microcontroller, a G-sensor (one 3-axis accelerometer), only one 2-axis gyroscope, and a wireless transmitter. The receiver device is preferably a dongle and includes a microcontroller and a wireless receiver. A first axis of the 2-axis gyroscope is parallel to the Z axis of the hand-held device and the second axis of the 2-axis gyroscope forms an acute angle α with the X axis of the hand-held device. The acute angle α allows the microcontroller of the receiver device to calculate rotational data around each of the three axis of the hand-held device.
摘要:
An interactive pointing device having pointing function in space and game control is provided in the present disclosure. The interactive pointing device comprises an accelerometer module, a dual-axis gyroscope device, and a micro processing unit. The accelerometer module functions as sensing the movement of the operator and generates at least one axis of accelerating signal corresponding to the sensed movement. The dual-axis gyroscope device functions as sensing rotation status of the interactive pointing device about dual axis and generate a corresponding rotating signal. The micro processing unit processes the at least one axis of accelerating signal and the rotating signal so as to interact with an electronic device accordingly. The micro processing unit is able to use the rotating signal to compensate the accelerating signal and assist an action evaluation process of the interactive pointing device operating under different operation modes.
摘要:
A motion sensing system includes a hand-held device and a receiver device. The hand-held device includes a microcontroller, a G-sensor (one 3-axis accelerometer), only one 2-axis gyroscope, and a wireless transmitter. The receiver device is preferably a dongle and includes a microcontroller and a wireless receiver. A first axis of the 2-axis gyroscope is parallel to the Z axis of the hand-held device and the second axis of the 2-axis gyroscope forms an acute angle α with the X axis of the hand-held device. The acute angle α allows the microcontroller of the receiver device to calculate rotational data around each of the three axis of the hand-held device.
摘要:
An electronic device utilizing a nine-axis motion sensor module, capable of accurately outputting a resultant deviation including deviation angles in a 3D reference frame is provided. The present invention provides a novel comparison and compensation to accurately obtain a resultant deviation including deviation angles of the electronic device under the presence of external and/or internal interferences including the ones caused by undesirable electromagnetic fields and the ones associated with undesirable external forces and axial accelerations. The output of the nine-axis motion sensor module of the present invention including a rotation sensor, an accelerometer and a magnetometer can be advantageously obtained and compensated with a comparison comparing different states of the motion sensor module such that an updated state associated with the output and the resultant deviation angles of the nine-axis motion sensor module are preferably obtained in an absolute manner with the undesirable external interferences being effectively excluded.
摘要:
The present invention relates to an electric device, which comprises: a micro inertial sensing module, for detecting a motion of the electric device with respect to the degree of freedom of six axes and thus issuing a sensing signal basing on the detection; a sensing signal processor, for receiving and processing the sensing signal to form a system processing signal; and a display; wherein the displacements and rotations of the motion detection-enabled electric device is sensed and measured by the micro inertial sensing module for enabling the micro inertial sensing module to generate sensing signals corresponding thereto and thus sending the same to the sensing signal processor for processing, and then the result of the processing is adopted as the input of the motion detection-enabled electric device for causing the motion detection-enabled electric device to response in the display accordingly. Thereby, the functions of the buttons used as inputting interface of conventional portable game devices can be replaced and thus the fatigue and pain of players' fingers caused by the pressing of buttons can be eliminated, moreover, the displaying area of the display can be enlarged since the area reserved for accommodating conventional buttons is voided.
摘要:
An inertial mouse is disclosed in the invention, comprising: a housing; a first inertial part, coupled to a circuit substrate received in the housing, for detecting a motion measured with respect to a second axis and a third axis of a space and also for detecting a motion measured along a first axis of a plane; a second inertial part, coupled to the circuit substrate, for detecting a motion measured with respect to a first axis of the space and also for optionally detecting a motion measured along a second axis of the plane; and a micro-controller, coupled to the circuit substrate, capable of converting electrical signals received from the first and the second inertial parts or cells into a displacement signal while transmitting the displacement signal to an electronic display device by a means of transmission.
摘要:
An interactive pointing device having pointing function in space and game control is provided in the present invention. The interactive pointing device comprises an accelerometer module and a gyroscope device. The accelerometer module functions as sensing the movement of the operator and generates at least one axis of accelerating signal corresponding to the sensed movement. The gyroscope device disposed on a turning mechanism functions as sensing rotation status of the interactive pointing device about at least one axis and generate a corresponding rotating signal. The turning mechanism can be operated to adjust the axis of the gyroscope device so that the gyroscope device is capable of sensing rotation status about different axes. The at least one accelerating signal and the rotating signal are then processed for controlling cursor movement of the electrical device and interacting with multimedia gaming programs.
摘要:
A sensing device for measuring movement of linear/arc path, being adapted to adhere to a body, is capable of determining specific movements of the body, which comprises: at least a two-axis accelerometer, for detecting accelerations measured along a first direction and a second direction and thus issuing a sensing signal corresponding to the detection; a signal processor, for processing the sensing signal received thereby and thus providing a data of acceleration; and a means of measurement, capable of determining and measuring a linear/arc movement of the body with respect to the data of acceleration.
摘要:
The present invention relates to an electric device, which comprises: a micro inertial sensing module, for detecting a motion of the electric device with respect to the degree of freedom of six axes and thus issuing a sensing signal basing on the detection; a sensing signal processor, for receiving and processing the sensing signal to form a system processing signal; and a display; wherein the displacements and rotations of the motion detection-enabled electric device is sensed and measured by the micro inertial sensing module for enabling the micro inertial sensing module to generate sensing signals corresponding thereto and thus sending the same to the sensing signal processor for processing, and then the result of the processing is adopted as the input of the motion detection-enabled electric device for causing the motion detection-enabled electric device to response in the display accordingly. Thereby, the functions of the buttons used as inputting interface of conventional portable game devices can be replaced and thus the fatigue and pain of players' fingers caused by the pressing of buttons can be eliminated, moreover, the displaying area of the display can be enlarged since the area reserved for accommodating conventional buttons is voided.