A touch device for dynamically setting a touch inactive area includes a storage unit, an identification unit, a touchscreen unit and a processing unit. The touchscreen unit presents an operation interface and a plurality of function keys provided thereby, each function key corresponding to a display area and a function. The identification unit generates feature data on the basis of a specific user. The processing unit obtains inactive area setting data by user data stored in the storage unit which corresponding to the feature data to set at least one touch inactive area on the touchscreen unit. However, when a function key corresponding to a display area overlapped with the touch inactive area is touched on the touchscreen unit, a corresponding function will not be activated.
A touch device for dynamically setting a touch inactive area includes a storage unit, an identification unit, a touchscreen unit and a processing unit. The touchscreen unit presents an operation interface and a plurality of function keys provided thereby, each function key corresponding to a display area and a function. The identification unit generates feature data on the basis of a specific user. The processing unit obtains inactive area setting data by user data stored in the storage unit which corresponding to the feature data to set at least one touch inactive area on the touchscreen unit. However, when a function key corresponding to a display area overlapped with the touch inactive area is touched on the touchscreen unit, a corresponding function will not be activated.
A touch device for dynamically setting a touch inactive area includes a storage unit, an identification unit, a touchscreen unit and a processing unit. The touchscreen unit presents an operation interface and a plurality of function keys provided thereby, each function key corresponding to a display area and a function. The identification unit generates feature data on the basis of a specific user. The processing unit obtains inactive area setting data by user data stored in the storage unit which corresponding to the feature data to set at least one touch inactive area on the touchscreen unit. However, when a function key corresponding to a display area overlapped with the touch inactive area is touched on the touchscreen unit, a corresponding function will not be activated.
技術摘要-英文: A touch device for dynamically setting a touch inactive area includes a storage unit, an identification unit, a touchscreen unit and a processing unit. The touchscreen unit presents an operation interface and a plurality of function keys provided thereby, each function key corresponding to a display area and a function. The identification unit generates feature data on the basis of a specific user. The processing unit obtains inactive area setting data by user data stored in the storage unit which corresponding to the feature data to set at least one touch inactive area on the touchscreen unit. However, when a function key corresponding to a display area overlapped with the touch inactive area is touched on the touchscreen unit, a corresponding function will not be activated.
A luminance sensing system and method and a computer program product thereof are provided. The system includes: a first luminance sensing unit, arranged at a first position, and used for sensing a light ray luminance at the first position to generate a first illumination value; a second luminance sensing unit, arranged at a second position, having a displacement unit, and used for sensing a light ray luminance at the second position to generate a second illumination value; and a computing unit, electrically connected to the first luminance sensing unit, the displacement unit, and the second luminance sensing unit, and used for acquiring the first illumination value and the second illumination value, acquiring luminance range information by using the first illumination value. When the second illumination value does not conform to the luminance range information, the computing unit controls the displacement unit to move the second luminance sensing unit.
技術摘要-英文: A luminance sensing system and method and a computer program product thereof are provided. The system includes: a first luminance sensing unit, arranged at a first position, and used for sensing a light ray luminance at the first position to generate a first illumination value; a second luminance sensing unit, arranged at a second position, having a displacement unit, and used for sensing a light ray luminance at the second position to generate a second illumination value; and a computing unit, electrically connected to the first luminance sensing unit, the displacement unit, and the second luminance sensing unit, and used for acquiring the first illumination value and the second illumination value, acquiring luminance range information by using the first illumination value. When the second illumination value does not conform to the luminance range information, the computing unit controls the displacement unit to move the second luminance sensing unit.
A treatment recommending system of plant symptom includes an operation interface, an image capture unit, a processing unit and a storage unit for storing plant symptom data and diagnostic data. The processing unit may find target contour data presenting a plant part according to symptom description and symptom characteristic data. The image capture unit obtains plant image data corresponding to the target contour data. The processing unit analyzes the plant image data, and coordinates with the symptom characteristic data to determine corresponding treatment recommendation data.
技術摘要-英文: A treatment recommending system of plant symptom includes an operation interface, an image capture unit, a processing unit and a storage unit for storing plant symptom data and diagnostic data. The processing unit may find target contour data presenting a plant part according to symptom description and symptom characteristic data. The image capture unit obtains plant image data corresponding to the target contour data. The processing unit analyzes the plant image data, and coordinates with the symptom characteristic data to determine corresponding treatment recommendation data.