Abstract: A method for performing lens shading compensation is provided. The method includes: receiving at least two series of source images of different exposure settings; performing first lens shading compensation on the at least two series of source images respectively; analyzing luminance distribution of the at least two series of compensated source images; composing a series of HDR images from the at least two series of compensated source images according to the luminance distribution; performing second lens shading compensation on the series of HDR image; and performing tone mapping on the series of compensated HDR images. A system for performing lens shading compensation is also provided.

Abstract: A method for controlling rotation speed is suitable for an electronic device having a vibrating fan module. The vibrating fan module can generate vibration and output airflow simultaneously. The method for controlling rotation speed includes the following steps. Whether a vibration signal transmitted by the electronic device is received is determined. When the vibration signal is received, a rotation speed of the vibrating fan module is adjusted to a vibration rotation speed. A temperature of the electronic device is sensed. Whether the temperature of the electronic device is greater than or equal to a first preset temperature is determined. When the temperature of the electronic device is greater than or equal to the first preset temperature, the rotation speed of the vibrating fan module is adjusted to a first rotation speed according to the temperature of the electronic device. The first rotation speed is less than the vibration rotation speed.

Abstract: A mobile device includes a ground plane, a first radiation branch, and a second radiation branch. The second radiation branch is coupled to the ground plane, and is disposed adjacent to the first radiation branch. An antenna structure is formed by the first radiation branch and the second radiation branch. The first radiation branch is fed from a signal source. The second radiation branch is excited by the first radiation branch through coupling therebetween.

Abstract: The invention provides a method for displaying photos. The method of the present invention comprises displaying a photo marked with a burst shooting icon, wherein the displayed photo corresponds to a photo group having a plurality of photos successively taken in a burst mode. A selection signal is received through the burst shooting icon. Upon the received selection signal, one of the photos in the photo group is displayed accompanying with a tool bar, wherein the tool bar at least includes a seek bar and a play key. An operating signal is received through the tool bar and upon the received operating signal, the photos in the photo group are displayed.

Abstract: An electronic device including a casing, a control module, a micro-projecting unit and a motion sensing unit is provided. The control module is disposed in the casing. The micro-projecting unit is disposed on the casing and electrically connected to the control module. The micro-projecting unit is capable of projecting a projection beam to form a frame in a projection region. The motion sensing unit is disposed on the casing and electrically connected to the control module. The motion sensing unit is capable of sensing a motion in the projection region. The control module is capable of applying the motion sensed by the motion sensing unit to change the frame.

Abstract: A method of handling device-to-device communication for a user equipment (UE) of a wireless communication system is disclosed. The method comprises during a period of transmission of a first plurality of data blocks, periodically triggering at least one feedback request with a predetermined period, and transmitting a second plurality of data blocks only after receiving at least one feedback in response to the at least one feedback request from at least one other UE.

Abstract: A method for zooming screen, an electronic apparatus and a computer readable medium using the same are provided. The method is adapted to an electronic apparatus having a touch screen. Firstly, a zooming gesture is detected by utilizing the touch screen. Next, a screen object acted by the zooming gesture on the touch screen is searched. Afterwards, a specific part of the screen object and a screen edge of the touch screen are used as a reference to zoom all of objects displayed in a screen of the touch screen, such that a height of the specific part of the screen object is constantly maintained during zooming the screen.

Abstract: A slight volume collector adapted to collect a sample liquid with slight volume and be assembled to a detecting device is provided. The slight volume collector includes a body and an extension part. The extension part extends outward from the body and protrudes from the body. The extension part has a through hole, and the through hole passes through the extension part and corresponds to the body. The sample liquid is adapted to be adhered to and arranged in the through hole due to capillarity, and a volume of the sample liquid is substantially equal to a capacity of the through hole.

Abstract: A method, an electronic apparatus, and a computer readable medium for determining a relative position of an apparatus, adapted for a first electronic apparatus to determine a relative position of a second electronic apparatus, are provided. In the method, a distance between the first and the second electronic apparatus is computed according to a wireless signal transmitted between the first and the second electronic apparatus. After one unit time and two unit time, distances between the first and the second electronic apparatus are computed according to the wireless signal and a displacement that the second electronic apparatus moves within each unit time is computed, respectively. Finally, a relative position of the second electronic apparatus relative to the first electronic apparatus is computed according to the distances and the displacements by using a current position of the first electronic apparatus as a reference point.

Abstract: The disclosure is directed to a method and apparatus for configuring a table of a network apparatus in a Long Term Evolution (LTE) time division duplexing (TDD) communication system. In one of the exemplary embodiments, the method would include identifying, from UL HARQ reference configurations and DL HARQ reference configurations, valid combinations that are compatible with an eIMTA relay; obtaining, for each of the valid combinations of the UL HARQ reference configurations and the DL HARQ reference configurations, a set of valid UL-DL subframe configuration that is compatible with the eIMTA relay; and obtaining, for each of the valid combinations of the UL HARQ reference configurations and the DL HARQ reference configurations, a set of valid SubframeConfigurationTDD that is compatible with the eIMTA relay.

Abstract: The present disclosure provides a method, electronic devices, and a computer readable medium for operating a mobile electronic device based on motion coherence between movements of the mobile electronic device and a wearable electronic device without providing an input. In the disclosure, the mobile electronic would receive a first motion data representing a movement of the wearable electronic device through a transceiver. The mobile electronic device would detect a second motion data representing a movement of the mobile electronic device. Then, the mobile electronic device would calculate a difference between the first motion data with the second motion data. If the difference between the first motion data and the second motion data is within a predetermined threshold, the mobile electronic device would execute an operation in response to the motion coherence between the mobile electronic device and the wearable electronic device.

Abstract: A touch input determining method applied to an electronic apparatus with a touch sensing device, which comprises: (a) determining a size for a region of the touch sensing device that an object provides at least one touch input to; (b) if the size is larger than or equals to a first predetermined value, not determining the touch input is a valid touch input; and (c) if the size is smaller than or equals to a second predetermined value, not determining the touch input is a valid touch input, wherein the second predetermined value is smaller than the first predetermined value.

Abstract: A mobile device and a corresponding wireless pairing method are provided. The mobile device includes a storage device, a display, and a processor. The storage device stores at least one password. Each password is associated with an access period or an access count. The processor is coupled to the storage device and the display. The processor deletes a password when the access period or the access count associated with the password expires. The processor encodes a password in an image and controls the display to display the image. The processor receives a pairing request including a password from another mobile device. The processor accepts the pairing request when the password of the pairing request matches any password stored in the storage device. The processor rejects the pairing request when the password of the pairing request does not match any password stored in the storage device.

Abstract: A method for handling a transmission time interval, hereinafter called TTI, bundling operation for a mobile device of a wireless communication system includes transmitting a transport block in a first TTI bundle; and retransmitting the transport block when a non-positively-acknowledged feedback or an uplink grant for retransmission is received after the transport block transmission of the first TTI bundle and before a TTI where a feedback of the first TTI bundle is expected.

Abstract: A response compensation method, an electronic device and a computer recording medium are provided, where the method is adapted to an electronic device having two non-coplanarly disposed speakers and includes the following steps. A stereo audio signal is respectively high-pass filtered and low-pass filtered followed by sound-field processing to generate a modified high-frequency right-channel signal, a modified high-frequency left-channel signal, a modified low-frequency right-channel signal, and a modified low-frequency left-channel signal.

Abstract: A method of handling random access for a user equipment of a wireless communication system includes transmitting a plurality of repetitions of a random access preamble in a repetition window; and monitoring a physical downlink control channel for at least one random access response identified by a random access radio network temporary identifier (RA-RNTI); wherein the RA-RNTI is determined based on a specific subframe within the repetition window.

Abstract: A communication device for handing system information comprises a storage unit for storing instructions and a processing means coupled to the storage unit. The processing means is configured to execute the instructions stored in the storage unit. The instructions comprise receiving a system information comprising at least one of a freqBandIndicator and a first multiBandInfoList from a first cell in a radio resource control (RRC) connected mode; and not disregarding the at least one of the freqBandIndicator and the first multiBandInfoList in the system information.