[MA, Hongyu 马洪宇, MA, Hongyu 马洪宇, DING, Enjie 丁恩杰, MA, Hongyu 马洪宇, DING, Enjie 丁恩杰, ZHAO, Xiaohu 赵小虎, MA, Hongyu 马洪宇, DING, Enjie 丁恩杰, ZHAO, Xiaohu 赵小虎, LIU, Xiaowen 刘晓文, MA, Hongyu 马洪宇, DING, Enjie 丁恩杰, ZHAO, Xiaohu 赵小虎, LIU, Xiaowen 刘晓文, HU, Yanjun 胡延军, MA, Hongyu 马洪宇, DING, Enjie 丁恩杰, ZHAO, Xiaohu 赵小虎, LIU, Xiaowen 刘晓文, HU, Yanjun 胡延军, ZHAO, Duan 赵端] 1# Daxue Road 中国江苏省徐州市大学路1号, Jiangsu 221118Xuzhou, Jiangsu 221118 A flip-chip packaging-based miniature methane sensor and a manufacturing method therefor. For the methane sensor, first, a MEMS process is employed for processing and manufacturing a monolithic high-temperature heater (1), a monolithic methane gas detector (2), and an ambient temperature detector (3), and then the monolithic high-temperature heater (1) and the monolithic methane gas detector (2) are formed into one integral miniature methane sensor in the form of a laminated structure by means of a flip-chip packaging process. The monolithic high-temperature heater (1) is independently heated to a high temperature of 500 °C or more. The monolithic methane gas detector (2) independently detects a temperature drop caused by the emergence of methane and by a change in concentration. A measuring circuit of the detector and a circuit of the monolithic high-temperature heater (1) are independent of each other and do not affect each other. The manufacturing process for the sensor is compatible with a CMOS process and has a low power consumption, high sensitivity, and extended service life.

[MA, Hongyu 马洪宇, MA, Hongyu 马洪宇, DING, Enjie 丁恩杰, MA, Hongyu 马洪宇, DING, Enjie 丁恩杰, LIU, Xiaowen 刘晓文, MA, Hongyu 马洪宇, DING, Enjie 丁恩杰, LIU, Xiaowen 刘晓文, ZHAO, Xiaohu 赵小虎, MA, Hongyu 马洪宇, DING, Enjie 丁恩杰, LIU, Xiaowen 刘晓文, ZHAO, Xiaohu 赵小虎, ZHAO, Duan 赵端] No.1 Daxue Road, Quanshan 中国江苏省徐州市泉山区大学路1号, Jiangsu 221118Xuzhou, Jiangsu 221118 An all-silicon microelectromechanical systems (MEMS) methane sensor, a fuel gas detection application, and a manufacturing method, applicable in mining environments, related to methane sensors, manufacturing methods for same, and detection methods therefor, and specifically related to a methane sensor employing a MEMS processing technique and a methane detection method for the sensor. The all-silicon MEMS sensor employs monocrystalline silicon to serve as a heating material of a heating component, the heating component also serves as a methane-sensitive component, and detection of low-concentration methane can be implemented without requiring a catalyst carrier and a catalyst material. The all-silicon MEMS methane sensor is processed by employing a MEMS process with an SOI wafer serving as a substrate. The processing process is compatible with a CMOS process. The all-silicon MEMS sensor has the characteristics of having a low power consumption and high sensitivity, being free from effects of oxygen deficiency, and being free from effects brought forth by a catalyst, such as carbon deposition and poisoning.

[DING, Enjie 丁恩杰, DING, Enjie 丁恩杰, MA, Hongyu 马洪宇, DING, Enjie 丁恩杰, MA, Hongyu 马洪宇, LIU, Xiaowen 刘晓文, DING, Enjie 丁恩杰, MA, Hongyu 马洪宇, LIU, Xiaowen 刘晓文, ZHAO, Xiaohu 赵小虎, DING, Enjie 丁恩杰, MA, Hongyu 马洪宇, LIU, Xiaowen 刘晓文, ZHAO, Xiaohu 赵小虎, ZHAO, Duan 赵端] NO.1 Daxue Road 中国江苏省徐州市大学路1号, Jiangsu 221118Xuzhou, Jiangsu 221118 An MEMS methane sensor, and application and manufacturing method thereof, being suitable to be used in a coal mine detection; the sensor comprises a P-type silicon substrate (01), an N-type silicon (02) provided on the P-type silicon substrate (01), and a silicon heating assembly (101) machined and prepared by the N-type silicon (02) on the P-type silicon substrate (01); and the silicon heating assembly (101) comprises two fixed ends (102), a silicon heater (1011) and two silicon cantilevers (1012). The sensor utilizes a common monocrystal silicon as a material of the heating assembly serving as a sensitive assembly, and does not need a catalyst carrier or a catalyst material. The machining process is compatible with a CMOS process, and the releasing of the heating assembly employs a wet silicon etching process capable of simultaneously etching in two directions. The sensor has a low cost, a high sensitivity and a low power consumption, and the measurement is free of the effect of oxygen concentration, carbon deposition and poisoning.

[MA, Yuchi 马宇驰, TONG, Bifeng 童碧峰, ZHAO, Xiaohu 赵小虎, TE, Rigele 特日格乐] Huawei Administration Building 中国广东省深圳市龙岗区坂田华为总部办公楼, Guangdong 518129Bantian, Longgang DistrictShenzhen, Guangdong 518129 A screen icon operating method and apparatus. The method comprises: acquiring sliding operation information of a user, the sliding operation information comprising: a first position, a sliding speed, a pressing duration before sliding, or a sliding direction (S201), wherein the first position is an initial position of the sliding operation of the user; when the first position is located outside icons, if the sliding speed is lower than a sliding speed threshold, according to the sliding direction, moving icons on a display page by column or by row (S204); or when the first position is located within an icon, determining that the pressing duration is greater than or equal to a first duration threshold and less than or equal to a second duration threshold, and according to the sliding direction, moving icons in the column or in the row (S207). The method implements quick finding for a particular icon, and for a large-screen terminal device exceeding a certain size, operations can be implemented quickly by a single hand, and the operations are easier and more convenient. A screen icon operating method and apparatus. The method comprises: acquiring sliding operation information of a user, the sliding operation information comprising: a first position, a sliding speed, a pressing duration before sliding, or a sliding direction (S201), wherein the first position is an initial position of the sliding operation of the user; when the first position is located outside icons, if the sliding speed is lower than a sliding speed threshold, according to the sliding direction, moving icons on a display page by column or by row (S204); or when the first position is located within an icon, determining that the pressing duration is greater than or equal to a first duration threshold and less than or equal to a second duration threshold, and according to the sliding direction, moving icons in the column or in the row (S207). The method implements quick finding for a particular icon, and for a large-screen terminal device exceeding a certain size, operations can be implemented quickly by a single hand, and the operations are easier and more convenient.

[CHAI, Weiqiang 柴卫强, DONG, Chaoyang 董朝阳, ZHANG, Jiaqing 张佳庆, SHANG, Fengju 尚峰举, WEI, Zhuo 魏卓, FAN, Hongwei 樊宏伟, ZHANG, Zhenxing 张振兴, WANG, Kai 王凯, JIANG, Jing 蒋晶, ZOU, Fuchun 邹复春, RAN, Xianxian 冉贤贤, WANG, Rongdong 王蓉东, XIAO, Bin 肖彬, YANG, Gaiqin 杨改琴, ZHAO, Xiaohu 赵小虎, LIU, Yongcheng 刘永成] No. 1298, Xuji Avenue 中国河南省许昌市许继大道1298号, Henan 461000Xuchang, Henan 461000;No. 1298, Xuji Avenue 中国河南省许昌市许继大道1298号, Henan 461000Xuchang, Henan 461000;No. 86, Chang' an Avenue West, Xicheng District 中国北京市西城区西长安街86号, Beijing 100031Beijing 100031;299 Ziyun Road, 中国安徽省合肥市经济技术开发区紫云路299号, Anhui 230000Economic And Technological Development ZoneHefei, Anhui 230000 A high-voltage direct current power transmission converter valve tower provided with fire monitoring functions, comprising at least two valve layers, a shield cover being provided above above the top-end valve layer, and further comprising a detection module. The detection module comprises a controller, and further comprises at least one gas temperature sensor and/or at least one smoke sensor. The controller is respectively connected to the gas temperature sensor and/or the smoke sensor. The gas temperature sensor and/or the smoke sensor are disposed in the shield cover. The detection module is disposed in the shield cover at the top-end valve layer, may quickly detect changes in temperature by using the natural rising properties of a hot gas flow, and may thereby quickly provide an early warning at an early stage of a fire incident, and improve the real-time performance and reliability of early warning for fires in valve towers. A high-voltage direct current power transmission converter valve tower provided with fire monitoring functions, comprising at least two valve layers, a shield cover being provided above above the top-end valve layer, and further comprising a detection module. The detection module comprises a controller, and further comprises at least one gas temperature sensor and/or at least one smoke sensor. The controller is respectively connected to the gas temperature sensor and/or the smoke sensor. The gas temperature sensor and/or the smoke sensor are disposed in the shield cover. The detection module is disposed in the shield cover at the top-end valve layer, may quickly detect changes in temperature by using the natural rising properties of a hot gas flow, and may thereby quickly provide an early warning at an early stage of a fire incident, and improve the real-time performance and reliability of early warning for fires in valve towers.

[LIN, Maozhong 林茂仲, ZHAO, Xiaohu 赵小虎] Building #43, Dayun Software Town 中国广东省深圳市龙岗区横岗街道龙岗大道8288号大运软件小镇43栋, Guangdong 518000No. 8288 Longgang RoadHenggang Street, Longgang DistrictShenzhen, Guangdong 518000 A display and a display manufacturing method. The display comprises a WOLED device (100), a first inorganic film layer (200) deposited on the WOLED device (100), a red color photoresist (300), a green color photoresist (400), and a blue color photoresist (500) provided on the first inorganic film layer (200) corresponding to the designated pixel definition layer of the WOLED device (100). A second inorganic film layer (700) is deposited outside the first inorganic film layer (200). The second inorganic film layer (700) covers the red color photoresist (300), the green color photoresist (400), the blue color photoresist (500), and the first inorganic film layer (200). The manufacturing method comprises: fabricating a WOLED device (100); depositing a first inorganic film layer (200) on the WOLED device (100); depositing a second inorganic film layer (700); spraying red color photoresist (300), green color photoresist (400), and blue color photoresist (500) into the designated pixels and hardening the photoresists; performing deposition of a second inorganic film layer (700) outside the first inorganic film layer (200), the red color photoresist (300), the green color photoresist (400), and the blue color photoresist (500). The display is light, thin and malleable, and the manufacturing method reduces the difficulty of aligning a large OLED display during an evaporation process. A display and a display manufacturing method. The display comprises a WOLED device (100), a first inorganic film layer (200) deposited on the WOLED device (100), a red color photoresist (300), a green color photoresist (400), and a blue color photoresist (500) provided on the first inorganic film layer (200) corresponding to the designated pixel definition layer of the WOLED device (100). A second inorganic film layer (700) is deposited outside the first inorganic film layer (200). The second inorganic film layer (700) covers the red color photoresist (300), the green color photoresist (400), the blue color photoresist (500), and the first inorganic film layer (200). The manufacturing method comprises: fabricating a WOLED device (100); depositing a first inorganic film layer (200) on the WOLED device (100); depositing a second inorganic film layer (700); spraying red color photoresist (300), green color photoresist (400), and blue color photoresist (500) into the designated pixels and hardening the photoresists; performing deposition of a second inorganic film layer (700) outside the first inorganic film layer (200), the red color photoresist (300), the green color photoresist (400), and the blue color photoresist (500). The display is light, thin and malleable, and the manufacturing method reduces the difficulty of aligning a large OLED display during an evaporation process.

[ZHAO, Xiaohu 赵小虎, ZHENG, Aihua 郑爱华, SHI, Yuanchang 施元昌, MA, Yuchi 马宇驰, TONG, Bifeng 童碧峰, TE, Rigele 特日格乐] Huawei Administration Building 中国广东省深圳市龙岗区坂田华为总部办公楼, Guangdong 518129Bantian, Longgang DistrictShenzhen, Guangdong 518129 The present invention relates to the field of terminal artificial intelligence and intelligent electronic devices. Provided are a display method for a side region of a screen, and an electronic apparatus. The electronic apparatus comprises: a first display screen at least comprising a main display region and at least one side display region, the main display region and the at least one side display region being used to respectively display an output of a first application, and the main display region and the at least one side display region being located in different planes; and a processor used to display, on the at least one side display region, at least one dynamic interface associated with a first task of the first application when the first task is triggered.

[ZHAO, Xiaohu 赵小虎, ZHENG, Aihua 郑爱华, TONG, Bifeng 童碧峰, CHEN, Xiaoxiao 陈晓晓, MA, Yuchi 马宇驰, TE, Rigele 特日格乐] Huawei Administration Building, Bantian 中国广东省深圳市龙岗区坂田华为总部办公楼, Guangdong 518129Longgang DistrictShenzhen, Guangdong 518129 A user interface display method and an electronic device. In the method, when an electronic device displays an interactive interface element in an unreachable region of a display screen, the electronic device can display the interactive interface element in a reachable region of the display screen in response to a gesture input by a user into the display screen. The method can cause the user to conveniently perform interaction with one hand in the reachable region and the interactive interface element, thereby improving the convenience of one-handed operation on the electronic device.

[ZHAO, Xiaohu 赵小虎, YOU, Peng 有鹏, YIN, Liangfei 尹良飞, ZHANG, Zhiqiang 张志强, SHEN, Xiuqi 申秀颀, LIU, Yong 刘勇] No. 1, Daxue Road, Tongshan 中国江苏省徐州市铜山区大学路1号, Jiangsu 221116Xuzhou, Jiangsu 221116 Provided is a method for generating an image semantic description, belonging to the technical field of image semantic description. The method comprises the following steps: extracting a global feature and a local feature of an image (S1); combining the global feature and the local feature to obtain combined information (S2); by means of an adaptive attention mechanism and according to the combined information, focusing the image features and focusing text to generate a semantic description model; using the semantic description model to generate image semantic description words and sentences (S3). The method solves the problem, in current image semantic description technology, of determining the focus point of an image, mining higher-level semantic information, and improving the detail information of descriptive words or sentences. Provided is a method for generating an image semantic description, belonging to the technical field of image semantic description. The method comprises the following steps: extracting a global feature and a local feature of an image (S1); combining the global feature and th

[WANG, Shaoan 汪少安, CHEN, Long 陈龙, CHEN, Yikai 陈羿恺, ZHAO, Xiaohu 赵小虎] Building #43, Dayun Software Town, No. 8288, Longgang Road, Henggang Street, Longgang District 中国广东省深圳市龙岗区横岗街道龙岗大道8288号大运软件小镇43栋, Guangdong 518172Shenzhen, Guangdong 518172 An organic magnetic molecule, comprising: a main group (100); a connecting group (200); and a magnetic group (300). The main group (100) is connected to the magnetic group (300) by means of the connecting group (200). A film packaging structure and preparation method therefor. The film packaging structure comprises: a first substrate (10); an organic layer (20), the organic layer (20) covering the surface of the first substrate (10); and a second substrate (30), the second substrate (30) covering the surface of the organic layer (20) away from the first substrate (10), wherein the organic layer (20) at least comprises a polymer formed by the aforementioned organic magnetic molecule. A display apparatus comprises: a substrate to be packaged and the aforementioned film packaging structure. The film packaging structure covers the substrate to be packaged. An organic magnetic molecule, comprising: a main group (100); a connecting group (200); and a magnetic group (300). The main group (100) is connected to the magnetic group (300) by means of the connecting group (200). A film packaging structure and preparation method therefor. The film packaging structure comprises: a first substrate (10); an organic layer (20), the organic layer (20) covering the surface of the first substrate (10); and a second substrate (30), the second substrate (30) covering the surface of the organic layer (20) away from the first substrate (10), wherein the organic layer (20) at least comprises a polymer formed by the aforementioned organic magnetic molecule. A display apparatus comprises: a substrate to be packaged and the aforementioned film packaging structure. The film