Abstract: The present disclosure provides methods of treating breast cancer, including triple negative breast cancer. The methods disclosed herein comprise administering a cationic liposomal formulation containing one or more cationic lipids and a taxane to a subject in need thereof. The methods also include administering one or more non-liposomal formulations including one or more active agents.

Abstract: A WI-FI parameter transmitting device can transmit a WI-FI parameter in the form of a broadcast signal, and includes an encryption module, a configuration module, a modulation module, and a play module. The encryption module obtains and encrypts the WI-FI parameter and the configuration module configures an encrypted WI-FI parameter and authorization information to generate WI-FI configuration information. The modulation module modulates the WI-FI configuration information with a carrier signal to generate a PCM signal and the play module plays the PCM signal in at least one predetermined frequency. A WI-FI parameter transmitting method and a WI-FI parameter receiving device and method are further provided.

Abstract: The disclosure involves an image guided video semantic object segmentation method and apparatus, locate a target object in a sample image to obtain an object sample; extract a candidate region from each frame; match multiple candidate regions extracted from the each frame with the object sample to obtain a similarity rating of each candidate region; rank the similarity rating of each candidate region to select a predefined candidate region number of high rating candidate region ranked by the similarity; preliminarily segment a foreground and a background from the selected high rating candidate region; construct an optimization function for the preliminarily segmented foreground and background; solve the optimization function to obtain a optimal candidate region set; and propagate a preliminary foreground segmentation corresponding to the optimal candidate region to an entire video to obtain a semantic object segmentation of the input video.

Abstract: A WI-FI parameter transmitting device can transmit a WI-FI parameter in the form of a broadcast signal, and includes an encryption module, a configuration module, a modulation module, and a play module. The encryption module obtains and encrypts the WI-FI parameter and the configuration module configures an encrypted WI-FI parameter and authorization information to generate WI-FI configuration information. The modulation module modulates the WI-FI configuration information with a carrier signal to generate a PCM signal and the play module plays the PCM signal in at least one predetermined frequency. A WI-FI parameter transmitting method and a WI-FI parameter receiving device and method are further provided.

Abstract: A method for forming gate structures for a HV device and a MV device is provided. The method includes forming a HV oxide layer on the substrate, covering a first region predetermined for forming the HV device. Further in the method, a dielectric mask is formed on a central portion of the HV oxide layer. A thermal oxidation process is performed to form a MV oxide layer on the substrate at a second region predetermined for forming the MV device, wherein peripheral portions of the HV oxide layer not covered by the dielectric mask grow thicker. The dielectric mask is removed. A conductive layer is formed over the substrate. The conductive layer, the HV oxide layer, the MV oxide layer are patterned to form the gate structures.

Abstract: A health risk cloud analysis system capable of integrating gene information and acquired lifestyle, includes: a cloud analysis server, a lifestyle assessment and questionnaire database, a client device, a gene detection system, a gene detection database, a client data and result report database, and a health improvement and advice analysis database. The health risk cloud analysis system is an overall health risk assessment method based on inborn gene information and acquired lifestyle data, and is capable of quickly and reliably analyzing health risk of multiple items, and providing precise overall personal health risk and improvement advice, so that users can fully understand their health risks. With appropriate and optimal health improvement advice and health products, the present invention is able to precisely and effectively improve health and prevent disease, which is helpful to improve the quality of life and reduce the waste of medical resources.

Abstract: A bit allocation method applied to an encoding device includes: performing a high frequency operation on a plurality of encoding blocks of a first frame to obtain a first block texture weight corresponding to a first encoding block among the encoding blocks; performing a protected color detection operation on the encoding blocks to obtain a first block protected color weight corresponding to the first encoding block; calculating a first bit weight corresponding to the first encoding block according to the first block texture weight and the first block protected color weight; and performing bit allocation for the first encoding block according to the first bit weight.

Abstract: A bit rate controlling method applied to a video encoding device includes: establishing a parameter table according to a first frame-level parameter corresponding to a first frame, and storing the parameter table to a look-up table (LUT) unit of the video encoding device; reading the parameter table stored in the LUT unit to obtain at least one encoding parameter corresponding to an encoding block in the first frame according to the parameter table and a target parameter of the encoding block; and encoding the encoding block of the first frame according to the at least one encoding parameter.

Abstract: An embodiment of the invention provides a control method of a cleaning robot. The method includes steps of moving the cleaning robot according to a first direction; keeping moving the cleaning robot according to the first direction when a light detector of the cleaning robot detects a light beam; moving the cleaning robot for a predetermined distance and then stopping the cleaning robot when the light detector does not detect the light beam; and moving the cleaning robot in a second direction.

Abstract: The present invention relates to compounds that are electron-deficient acceptors, donor-acceptor polymers that are synthesized from such electron-deficient acceptors, semiconductor devices synthesized from such donor-acceptor polymers and methods of synthesis of such electron-deficient acceptors, donor-acceptor polymers and semiconductor devices.

Abstract: An embodiment of the invention provides a charging station for a cleaning robot. The charging station includes an IR transmitter and a controller. The IR transmitter outputs a first IR light beam, wherein the IR light beam includes a second boundary and a first boundary which is substantially perpendicular or perpendicular to the charging station and the cleaning robot moves to the charging station along the first boundary. The controller controls the IR transmitter to output the first IR light beam or a second IR light beam. When the controller determines that the cleaning robot is near to the charging station, the controller controls the IR transmitter to output the second IR light beam.

Abstract: An embodiment of the invention provides a cleaning robot including a light detector and a controller. The light detector detects a light beam. The controller is coupled to the light detector to control the cleaning robot. When the controller determines that the light beam is being output by a charging station, the controller controls the cleaning robot to move to the charging station along a first boundary of the light beam, which is substantially perpendicular to the charging station.

Abstract: A carrier system includes at least one seat and a radio wave detection device. The radio wave detection device is configured to emit a detection wave towards at least one seat of the carrier. A reflected wave reflected in response to the detection wave is received by the radio wave detection device. A position of an occupied seat and a type of an occupant on the occupied seat are determined in response to the received reflected wave. A safety mechanism is activated in response to the position of the occupied seat and the type of the occupants.

Abstract: A carrier system includes at least one seat and a radio wave detection device. The radio wave detection device is configured to emit a detection wave towards at least one seat of the carrier. A reflected wave reflected in response to the detection wave is received by the radio wave detection device. A position of an occupied seat and a type of an occupant on the occupied seat are determined in response to the received reflected wave. A safety mechanism is activated in response to the position of the occupied seat and the type of the occupants.

Abstract: An embodiment of the invention provides a control method for a cleaning robot with a quasi-omnidirectional detector and a directional light detector. The method includes: rotating the non-omnidirectional light detector when the non-omnidirectional light detector detects a light beam; when the non-omnidirectional light detector does not detect the light beam, the non-omnidirectional light detector is stopped from being spun and a rotation angle is estimated; determining a rotation direction according to the rotation angle; rotating the cleaning robot according to the rotation direction; stopping the rotation of the cleaning robot when the directional light detector detects the light beam.

Abstract: An embodiment of the invention provides a control method of a cleaning robot with a non-omnidirectional light detector. The method includes the steps of: detecting a light beam via the non-omnidirectional light detector; stopping the cleaning robot and spinning the non-omnidirectional light detector when the non-omnidirectional light detector detects the light beam; stopping the spinning of the non-omnidirectional light detector and estimating a first spin angle when the non-omnidirectional light detector does not detect the light beam; and adjusting a moving direction of the cleaning robot according to the first spin angle.

Abstract: An plug storage structure of a cleaning robot is presented. A charging structure includes a charging base and a main body of an electronic device. The charging base includes a charging terminal and a projecting portion. The main body has an external housing, charging plugs and an plug storage device. When the main body reaches the charging base, the projecting portion triggers the plug storage device, so that the charging plugs protrude from the external housing, so as to be connected to the charging terminal. When the main body leaves the charging base, the plug storage device automatically receives the charging plugs inside the external housing, so as to keep the plugs of the cleaning robot received inside the external housing during cleaning, thereby preventing the plugs of the cleaning robot from colliding with and damaging adjacent furniture.

Abstract: A cleaning path guidance method combined with a dirt detection mechanism is performed in an automatic cleaning device to generate a cleaning path, so as to guide the automatic cleaning device to clean an area to be cleaned, in which plural grids are defined in the area. The method includes: moving the automatic cleaning device in the area to clear dirt away, and continuously detecting a flow of the dirt cleared away to obtain a dirt level of a current gird; if the dirt level of the current gird exceeds a threshold, marking the grid as a dirty grid; performing an algorithm and finding a shortest path passing through all dirty grids as a cleaning path according to the marked dirty grids; and moving the automatic cleaning device to pass through each dirty grid according to the clean path, so as to clean each dirty gird sequentially.

Abstract: The present invention discloses a miniature photographic apparatus applicable to an endoscopic device, and including a casing, at least one light source device and at least one viewing lens device. The casing is disposed at a front end of the endoscopic device. The casing includes an accommodating space. The light source device is disposed in the accommodating space, and emits at least one light and includes a first protecting layer at a front end of the light source device. The viewing lens device is disposed in the accommodating space and includes a second protecting layer at a front end of the viewing lens device. The second protecting layer is separated from the first protecting layer to prevent lights reflected by the second protecting layer from entering into the viewing lens device.

Abstract: A method for fabricating a high voltage semiconductor device is provided. Firstly, a substrate is provided, wherein the substrate has a first active zone and a second active zone. Then, a first ion implantation process is performed to dope the substrate by a first mask layer, thereby forming a first-polarity doped region at the two ends of the first active zone and a periphery of the second active zone. After the first mask layer is removed, a second ion implantation process is performed to dope the substrate by a second mask layer, thereby forming a second-polarity doped region at the two ends of the second active zone and a periphery of the first active zone. After the second mask layer is removed, a first gate conductor structure and a second gate conductor structure are formed over the middle segments of the first active zone and the second active zone, respectively.