Abstract:
The present invention includes a sensor device which is worn on a user's body, acquires and outputs positioning data including geographical position information of the moving user, and measures and outputs motion data regarding the motion status of the body, a wrist device which controls the operation of the sensor device, and a data processing section which obtains a first movement track indicating the user's positional change based on the positioning data outputted from the sensor device and a second movement track indicating a relative change of the user's position based on the motion data, deforms the second movement track based on a comparison between the positions of the first movement track and the second movement track at the same clock time in the first movement track and the second movement track, and obtains the user's moving distance from a track after the deformation processing on the second movement track.
Abstract:
A biological information detecting device of the present invention, which detects the pulse of a user, includes a detecting section which outputs an observation signal detected based on a pulse wave of at least one observation site of the user and an acceleration measuring section which outputs a plurality of acceleration signals in each of a plurality of axial directions measured along with the user's movement. Based on a comparison between the observation signal and a composite acceleration signal obtained by combining the acceleration signals based on a plurality of parameters, the device estimates a specific value of each of the parameters corresponding to acceleration components of the observation signal based on the user's movement, and calculates the pulse rate of the user from a difference value obtained by subtracting a specific composite acceleration signal corresponding to the specific value of each of the estimated parameters from the observation signal.
Abstract:
An activity state analyzer 10 configured to analyze an activity state of a cyclist during cycling includes: a sensor unit (21 to 26, 18) configured to acquire sensor data from a plurality of types of sensors including an acceleration sensor 21 and a gyroscope sensor 22 that are attached to a lower back of the cyclist, and a CPU 11 configured to analyze an activity state of the cyclist during cycling based on a detection output from the plurality of types of sensors of the sensor unit (21 to 26, 18).
Abstract:
A programming device including a planar shape indication section which receives at least one first user operation for indicating a planar shape by specifying two or more portions among a plurality of portions arranged at different positions in a planar direction; a height reception section which receives at least one second user operation for indicating a height that is a position in a direction intersecting with the plane or a displacement amount of the height in association with a portion of any of the two or more portions; and a control section which generates a command list for moving a control target section along a three-dimensional shape indicated by the planar shape indication section and the height reception section.
Abstract:
A reconstructed image which further reflects the photo shooting information of a main object is generated. A layer determiner defines a layer of a reconstructed image. A layer image generator reconstructs an image of an object included in the allocated depth range from a light field image and the depth map of the light field image for each layer. A conversion pixel extractor extracts corresponding pixels on a conversion layer which corresponds to an object to be modified. The object to be modified is designated by an operation acquired by a modification operation acquirer. A reconstructed image generator converts layer images using a conversion matrix defined by a conversion matrix determiner and generates an image whose composition has been modified by superimposing the layer images.
Abstract:
An activity recording data processing apparatus is provided. This apparatus includes an operation unit configured to acquire data obtained for a series of activity and action estimation information on the series of activity, the action estimation information being associated with the data; extract partial data of the data based on the action estimation information; and perform clustering of the extracted partial data.
Abstract:
In an exercise support device of the present invention, acceleration signals in three axis directions including vertical, longitudinal, and lateral directions corresponding to the motion of a user performing exercise of cyclically moving feet are obtained, and a first maximum value in one cycle of a foot movement in the vertical acceleration signal is obtained. Subsequently, a search is made for first and second change points related to foot landing and takeoff motions in a composite acceleration signal obtained by combining acceleration signals in at least two axis directions, in forward and backward directions of the time point of a second maximum value of the composite acceleration signal, within the cycle. Then, a time period between the first and second change points is obtained as a change point interval, and a foot landing period while exercising is calculated based on the first maximum value and the change point interval.
Abstract:
A mask acquisition unit acquires a mask (region information) that matches photography setting information acquired by a photography setting acquisition unit, the mask defining a sub-image region of a light field image acquired by an LFI acquisition unit. A prototype definition unit disposes a prototype of a reconstructed image at a position of reconstruction setting in a reconstruction setting storage unit. A reconstructed pixel selecting unit selects a pixel of interest from pixels of a reconstructed image. A corresponding pixel extracting unit extracts, as a corresponding pixel, a pixel that corresponds to the pixel of interest and is included in a sub-image region of the acquired mask. A pixel value calculation unit calculates a pixel value of the pixel of interest from a pixel value of the corresponding pixel. An output unit decides pixel values of all reconstructed pixels as pixels of interest and generates and outputs a reconstructed image.
Abstract:
A programming device including a shape indication section which receives at least one first user operation for indicating a shape by specifying two or more portions among a plurality of tangible portions arranged at different positions with each other in a planar direction; and a control section which generates a command list for moving a control target section along the indicated shape.
Abstract:
An activity state analyzer 10 configured to analyze an activity state of a cyclist during cycling includes: a sensor unit (21 to 26, 18) configured to acquire sensor data from a plurality of types of sensors including an acceleration sensor 21 and a gyroscope sensor 22 that are attached to a lower back of the cyclist, and a CPU 11 configured to analyze an activity state of the cyclist during cycling based on a detection output from the plurality of types of sensors of the sensor unit (21 to 26, 18).