会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明申请
    • Chaotic Baseband Modulation Hopping Based Post-Quantum Physical-Layer Encryption
    • 基于混沌基带调制跳频的后量子物理层加密
    • US20160234009A1
    • 2016-08-11
    • US14976373
    • 2015-12-21
    • Wenhua LiMin Xu
    • Wenhua LiMin Xu
    • H04L9/00H04L29/08
    • H04L9/001H04L9/0852H04L2209/34
    • A post-quantum physical-layer encryption/decryption system based on chaotic Baseband Modulation Hopping (BMH). The baseband constellation, mapping, power level, and phase will vary symbol-by-symbol according to assigned random sequences. Pre-shared secret keys are used as the chaotic system parameters, initialization, and quantization parameters to generate the BMH codes. The BMH physical-layer encryption/decryption system can be combined with digital-domain based encryption algorithms such as AES, code-based post-quantum cryptography, and other physical-layer secure communication techniques such as Frequency Hopping (FH) and Direct Sequence Spread Spectrum (DSSS). It can also be combined with Quantum Key Distribution (QKD) to provide mutual authenticated key distribution. This invention can be applied to all kinds of communication systems including wireless (radio frequency, optical, quantum channel, sonar) and wire (optical fiber, power-line, telephone line, wire quantum channel, etc.), single carrier and multi-carrier, OFDM, MIMO channels.
    • 基于混沌基带调制跳频(BMH)的后量子物理层加密/解密系统。 根据分配的随机序列,基带星座,映射,功率电平和相位将逐个符号变化。 预共享密钥用作混沌系统参数,初始化和量化参数,以生成BMH码。 BMH物理层加密/解密系统可以与基于数字域的加密算法结合,例如AES,基于代码的后量子密码学和其他物理层安全通信技术,如跳频(FH)和直接序列传播 频谱(DSSS)。 它也可以与量子密钥分发(QKD)相结合,以提供相互验证的密钥分配。 本发明可以应用于无线(射频,光,量子通道,声纳)和线(光纤,电力线,电话线,线量子通道等),单载波和多载波的各种通信系统, 载波,OFDM,MIMO信道。
    • 5. 发明授权
    • Electronic device with USB interface and method for starting USB communication therefor
    • 具有USB接口的电子设备和用于启动USB通信的方法
    • US09201832B2
    • 2015-12-01
    • US14113238
    • 2011-11-21
    • Qirui LiChao LiHuiqin ShiMin XuTao WangPengbin Xu
    • Qirui LiChao LiHuiqin ShiMin XuTao WangPengbin Xu
    • H02J1/00G06F13/40H02J7/00
    • G06F13/4068H02J7/0052H02J2007/0062
    • The disclosure provides an electronic device with a Universal Serial Bus (USB) interface and a method for starting USB communication for a USB interface, so as to solve the problem that a mobile phone terminal device can be damaged easily when a charger shares one interface with USB communication in the conventional art. A control pin of the control circuit of the device is connected with a VCHG pin of a power management chip; an output pin of the control circuit is connected with a USB_VBUS pin of a USB interface chip; a power pin of the control circuit is connected with a fixed voltage input end which inputs a high level; and the control circuit is configured to output a fixed voltage from the output pin of the control circuit when detecting that the voltage of the control pin is more than a set threshold and output a low level from the output pin of the control circuit when detecting that the voltage of the control pin is less than the set threshold. The charging voltage (VCHG) of the handheld terminal product is only used as the control signal which is isolated from the voltage output to the USB_VBUS pin, so that the damage to the device is avoided.
    • 本发明提供一种具有通用串行总线(USB)接口的电子设备和用于启动USB接口的USB通信的方法,以解决当充电器共享一个接口时移动电话终端设备容易损坏的问题 传统技术中的USB通信 设备的控制电路的控制引脚与电源管理芯片的VCHG引脚连接; 控制电路的输出引脚与USB接口芯片的USB_VBUS引脚连接; 控制电路的电源引脚与输入高电平的固定电压输入端相连; 并且所述控制电路被配置为当检测到所述控制引脚的电压大于设定的阈值时从所述控制电路的输出引脚输出固定电压,并且当检测到所述控制电路的输出引脚时从所述控制电路的输出引脚输出低电平 控制引脚的电压小于设定的阈值。 手持终端产品的充电电压(VCHG)仅用作与输出到USB_VBUS引脚的电压隔离的控制信号,从而避免了对器件的损坏。
    • 6. 发明授权
    • Detecting resource deadlocks in multi-threaded programs by controlling scheduling in replay
    • 通过控制重播中的调度来检测多线程程序中的资源死锁
    • US09052967B2
    • 2015-06-09
    • US12848023
    • 2010-07-30
    • Qi GaoMin Xu
    • Qi GaoMin Xu
    • G06F9/52G06F11/36
    • G06F9/524G06F11/3636
    • A method and system for determining potential deadlock conditions in a target multi-threaded software application. The target application is first run in a virtual machine and the events within the application are recorded. The recorded events are replayed and analyzed to identify potential lock acquisition conflicts occurring between threads of the application. The potential lock acquisition conflicts are identified by analyzing the order in which resource locks are obtained and pairs of resources that have respective locks obtained in different orders are analyzed. These analyzed pairs are used to define a different order of events in the target application that, when the target application is re-run with the second order of events, may trigger a deadlock condition. The target application is then re-run with the different order of events in an attempt to trigger and then identify potential deadlock situations.
    • 一种用于确定目标多线程软件应用程序中潜在的死锁状况的方法和系统。 目标应用程序首先在虚拟机中运行,并记录应用程序中的事件。 记录的事件被重放和分析,以识别在应用程序的线程之间发生的潜在锁定获取冲突。 通过分析获得资源锁定的顺序来识别潜在锁获取冲突,并分析具有以不同顺序获得的相应锁的资源对。 这些分析的对用于定义目标应用程序中不同的事件顺序,当目标应用程序以二次事件重新运行时,可能会触发死锁条件。 然后,目标应用程序以不同的事件顺序重新运行,以尝试触发,然后识别潜在的死锁情况。
    • 8. 发明授权
    • Low coherence enhanced backscattering tomography and techniques
    • 低相干性增强后向散射层析成像和技术
    • US08823954B2
    • 2014-09-02
    • US13698360
    • 2011-05-17
    • Min Xu
    • Min Xu
    • G01B11/14G01B9/02G01B11/24A61B5/00G01N21/47
    • G01N21/4795A61B5/0066G01B9/02G01B11/14G01B11/24G01N2021/4709
    • A low coherence enhanced backscattering tomography (LEBT) method is disclosed for depth-selective sensing of the superficial layer of tissue. 3D images of the microarchitecture and molecular conformation of the superficial layer of tissue are obtained. The method combines the high resolution advantage of low coherence light and the high sensitivity advantage of light scattering to tissue structure and composition. Intact tissue can be examined without the need of excision or processing. The method can be applied in in situ measurements. According to the method, 3D images of the nuclear morphology and cellular structure for the superficial layer of the tissue are generated; this is particularly useful in detecting cancer and precancer at the earliest stage of carcinogenesis.
    • 公开了低相干性增强后向散射层析成像(LEBT)方法,用于对组织的表层进行深度选择性感测。 获得微结构的3D图像和组织表层的分子构象。 该方法结合了低相干光的高分辨率优点和光散射对组织结构和组成的高灵敏度优势。 可以检查完整的组织,而不需要切除或加工。 该方法可以应用于原位测量。 根据该方法,生成组织表层的核形态和细胞结构的3D图像; 这在癌发生的最早阶段检测癌症和癌前期特别有用。
    • 9. 发明申请
    • Electronic device having USB interface and method for starting USB communication with such device
    • 具有USB接口的电子设备和用于启动与这种设备的USB通信的方法
    • US20140059363A1
    • 2014-02-27
    • US14113947
    • 2011-11-15
    • Yongping ShaoHuiqin ShiMin XuTao WangTierui YaoXiaofeng Zhang
    • Yongping ShaoHuiqin ShiMin XuTao WangTierui YaoXiaofeng Zhang
    • G06F1/26
    • G06F1/26G06F13/385G06F13/4295H02J7/00H02J2007/0062
    • The present disclosure provides an electronic device having a USB interface and a method for starting USB communication with such an electronic device, so as to solve the problem of a risk of damaging a mobile phone terminal device arising from sharing of an interface by a charger and a USB communication cable in the related art. In the electronic device, a port GPIO of a baseband chip is connected to a pin USB_VBUS of a USB interface of the baseband chip; based on this circuit, a power management chip detects a state of plugging-in-or-pulling-out of the charger and generates a corresponding interrupt request; and the baseband chip controls the GPIO to output a corresponding level according to the interrupt request. By connecting the port GPIO and the pin USB_VBUS and controlling an output level of GPIO with a software, a high level or a low level (as a triggering signal for starting or terminating the USB communication) is input to the pin USB_VBUS, thus avoiding damage to the device.
    • 本公开提供一种具有USB接口的电子设备和用于开始与这种电子设备的USB通信的方法,以解决由于充电器共享接口而导致的移动电话终端设备损坏的风险的问题,以及 相关技术中的USB通信电缆。 在电子设备中,基带芯片的端口GPIO连接到基带芯片的USB接口的引脚USB_VBUS; 基于该电路,电源管理芯片检测充电器插拔的状态,并产生相应的中断请求; 并且基带芯片控制GPIO根据中断请求输出相应的电平。 通过连接端口GPIO和引脚USB_VBUS并通过软件控制GPIO的输出电平,将高电平或低电平(作为用于启动或终止USB通信的触发信号)输入到引脚USB_VBUS,从而避免损坏 到设备。