Peng, Tu-Cheng
Chao-Yun Peng, Tu-Cheng TW
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20100050127 | SYSTEM AND METHOD FOR SIMPLIFYING OPERATIONS OF AN ELECTRONIC DEVICE - A system and method for simplifying operations of an electronic device sets a first duration that a cursor is allowed to stay on each root menu option which has sub-menu options, and sets a second duration that the cursor is allowed to stay on each leaf menu option which has no sub-menu options. If the cursor stays on a root menu option beyond the first duration, the system and method controls the electronic device automatically to enter a lower hierarchy menu interface corresponding to the root menu option. If the cursor stays on a leaf menu option beyond the second duration, the system and method controls the electronic device to directly return to a main menu interface from the leaf menu option. | 02-25-2010 |
Chih-Jung Peng, Tu-Cheng TW
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20100287289 | METHOD AND SYSTEM OF SECURING ELECTRONIC DEVICE - A method of securing electronic device includes connecting a first electronic device saving an initial network environment parameter to a network. The first electronic device detects an actual network environment parameter in the network. The first electronic device uploads data information stored therein to a predetermined second electronic device through the network when the actual network environment parameter is different from the initial network environment parameter. The first electronic device deletes the data information stored therein. | 11-11-2010 |
Chi-Hsiang Peng, Tu-Cheng TW
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20130182080 | CAMERA TESTING DEVICE AND METHOD FOR TESTING CAMERA - A method for testing a 3D camera is provided. The method includes: making a first camera of the 3D camera align with a first picture of a reference picture, wherein, the reference picture includes a second picture, a central point of the first picture and the second picture respectively has a first label and a second label; obtaining an image captured by a second camera of the 3D camera; identifying the first label, the second label, and a central point of the image; calculating an actual angle difference and an actual distance difference according to coordinates of the first label, the second label, and the central point; determining whether the 3D camera is installed appropriately by comparing the actual distance difference with the reference distance difference and the actual angle difference with the reference angle difference respectively. | 07-18-2013 |
Chin-Yung Peng, Tu-Cheng TW
Patent application number | Description | Published |
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20090325414 | SECURE DIGITAL MEMORY CARD RETAINING MECHANISM - A secure digital memory card (SD card) retaining mechanism ( | 12-31-2009 |
20100148998 | KEYBOARD SCANNING CIRCUIT - A keyboard scanning circuit, comprising N wires, and [(2N−1)+(2N−1−1)N] switches divided into two switch groups, therein N is a natural number. Each switch includes a first contact and a second contact. the first contacts of the (2 | 06-17-2010 |
Chung-Chen Peng, Tu-Cheng TW
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20090309695 | COMPUTING SYSTEM AND COMPUTER-IMPLEMENTED METHOD FOR A MULTI-CARD SYSTEM - A computer-implemented method for a multi-card system is provided. An inserted card detects the operational status of cards of the same type. The inserted card will be in standby status when inserted card finds an active card of the same type. If the inserted card does not find any active card of the same type, the inserted card will send a query to a control card requesting the operational status of the cards of the same type. If the control card accepts the query, the control card will send a signal to the inserted card. The inserted card determines its operational status based on the signal. If the inserted card does not receive the signal in a predetermined amount of time, it will be activated. | 12-17-2009 |
Da-Yi Peng, Tu-Cheng TW
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20120063626 | SPEAKER WITH ACOUSTIC CHAMBER - A speaker with acoustic chamber is provided. The speaker includes a main body and an acoustic chamber fixed to the main body. The acoustic chamber can be converted between a collapsed state and an expanded state. The acoustic chamber is drawn to the expanded state to increase the volume of the acoustic chamber and is collapsed to the collapsed state to decrease the volume of the acoustic chamber. When the acoustic chamber is drawn to the expanded state, the quality of the sound output by the speaker is improved. | 03-15-2012 |
20120069716 | WEARABLE ELECTRONIC DEVICE WITH WIRELESS COMMUNICATION FUNCTION - A wearable electronic device includes a processing unit, a housing, and display. The processing unit is inside the housing. The display connected to the processing unit is mounted in the housing. The housing includes a main body and an antenna. The antenna, connected to the processing unit and inlaid in the main body, provides wireless signals to the processing unit. | 03-22-2012 |
20120075105 | INDICATION DEVICE, METHOD FOR PRODUCING INDICATON DEVICE, AND ELECTRONIC DEVICE WITH THE INDICATION DEVICE - An indication device includes a substrate, a printed image, and a backlight source. The substrate is transparent or semi-transparent. The printed image is printed on a surface of the substrate and includes a first sub-image with a first color and a second sub-image with a second color. The backlight source setting on an opposite second surface of the substrate and capable of emit different color light. When the backlight source emits light with color different from both of the first color and the second color, the whole printed image is visible and indicates a first status of the task being executed. When the backlight source emits light with the same color as the second color, only the first sub-image is visible, the printed image indicates a second status of the task being executed. | 03-29-2012 |
20120079587 | ELECTRONIC DEVICE WITH WEBCAM SECURITY FUNCTION AND METHOD THEREOF - An electronic device with a webcam security function includes an input unit, a power supply unit, a webcam, a thin film transistor liquid crystal display (TFT-LCD) and a processing unit. The processing unit includes a receiving module, a detection module and a power control module. The receiving module receives an input operation from the input unit. The detection module detects whether the received input operation matches a predetermined input operation. The power control module controls the power supply unit to supply power to the TFT-LCD when the received input operation matches the predetermined input operation, thus enabling light to pass through the TFT-LCD to the webcam. | 03-29-2012 |
20120085796 | ADJUSTABLE STRAP AND ELECTRONIC DEVICE WITH THE ADJUSTABLE STRAP - The electronic device includes a body and an adjustable strap. The adjustable strap includes a first strap, a second strap, a first slider, and a second slider. Each of the first and second sliders defines a rail in the middle thereof and two through holes of each slider are formed via the rail. One end of the first strap is connected to one end of the body, and the other end passes through one through hole of the first slider and one through hole of the second slider. Then it is connected to the second slider; one end of the second strap is connected to the other end of the body, and the other end passes through the other through hole of the second slider and the other through hole of the first slider, and then is connected to the first slider. | 04-12-2012 |
20130034981 | ELECTRONIC DEVICE WITH MEMORY CARD CONNECTOR - An electronic device includes a housing, a card reader, and a cover. The housing includes a slot and two protrusions defined on the inner wall of the housing. The cover includes a body and two connection ends. The body is for covering the slot. The connection ends extend from the body. Each of the two connection ends includes a sliding slot which receives one of the two protrusions respectively to guide the two connection ends to slide. When the cover covers the card which contains a memory card therein, the cover is operable to be pressed to eject the memory card. When the memory card is ejected, it push the body of the cover to cause the two connection ends to slide along the two protrusions to make the body of the cover uncover the slot and rotate to expose the memory card. | 02-07-2013 |
Fang-Ying Peng, Tu-Cheng TW
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20100172040 | FOCUS MODULE AND METHOD FOR MANUFACTURING SAME - The present disclosure provides a focus module including a substrate, a holder, at lease one second magnet, a frame and an elastic element. The substrate includes at least one first magnet and an aperture. The frame is fixed on the substrate and defining a hole receiving the holder. The second magnet is fixed on the holder. At least one of the first magnet and the second magnet is an electromagnet. The elastic element includes a first end, a second end, and at least one U-shape bend connected the first and second ends. The first end is fixed on the side surface of the holder. The second end is fixed on the inner surface of the hole. The two sides of the U-shape bend are parallel to the side surface of the holder and the inner surface of the hole. The present invention also provides a method for manufacturing the focus module. | 07-08-2010 |
20120099207 | WIDE-ANGLE RELAY LENS AND IMAGING SYSTEM HAVING SAME - A relay lens is used for an imaging system having a main lens. The main lens has a pupil plane. The relay lens, in the order from the subject side to the image side thereof, includes a first lens of negative refractive power, and a second lens of positive refractive power. The first lens has a first principle plane and a second principle plane. The second lens has a third principle plane and a fourth principle plane. The relay lens system satisfies the following formulas: 0.53<|ƒ1/ƒ2|<0.57; 1.54<ν1/ν2<3.11; 0.2204-26-2012 | |
20120099208 | ZOOM LENS SYSTEM - A zoom lens system is used for imaging an object to an image plane. The system, in the order from the object side to the image plane, includes a first lens group with positive refraction power, a second lens group with negative refraction power, a third lens group with positive refraction power, an aperture stop, a fourth lens group with positive refraction power, and a fifth lens group with negative refraction power. The fifth lens group comprises a lens of negative refraction power and a lens of positive refraction power. The system satisfies the formulas: −0.1804-26-2012 | |
20120099209 | ZOOM LENS SYSTEM - A zoom lens system includes, in the order from the object side to the image side thereof, a first lens group of positive refraction power, a second lens group of negative refraction power, a third lens group of positive refraction power, a fourth lens of positive refraction power, and an imaging plane. The first lens group and the third lens group are immovably mounted. The second lens group and the fourth lens group are movably mounted. The zoom lens system satisfies the formulae: 504-26-2012 | |
20120099210 | PROJECTION LENS SYSTEM WITH HIGH RESOLUTION AND COMPACT SIZE - The present disclosure relates to a projection lens system for a projector having a spatial light modulator (SLM). The projection lens system includes, in order from the magnified end to the minified end thereof, a first lens group with negative refraction power, a second lens group with positive refraction power, and a third lens group with positive refraction power. The projection lens system satisfies the following formulas: 304-26-2012 | |
20120099211 | SUPER-WIDE-ANGLE LENS SYSTEM AND IMAGING MODULE HAVING SAME - A super-wide-angle lens system for imaging an object on an imaging surface, includes a first lens group with negative refraction power and a second lens group with positive refraction power. The first lens group includes a first spherical lens with negative refraction power, a second spherical lens with negative refraction power, and a third spherical lens with positive refraction power. The first lens has a first surface facing the object side of the first lens group. The second lens group includes a fourth spherical lens with positive refraction power and a fifth spherical lens with negative refraction power. The system satisfies the formulas: 0.0104-26-2012 | |
20120105972 | ZOOM PROJECTION LENS - A zoom projection lens includes, in the order from the magnification side to the minification side thereof, a first lens group with negative refraction power, a second lens group with positive refraction power, a third lens group with positive refraction power, a fourth lens group with negative refraction power, and a fifth lens group with positive refraction power. The first lens group, the second lens group, the third lens group, and the fourth lens group are movably positioned. The fifth lens group is immovably positioned. The zoom projection lens satisfying the formulae: 1.0<|F1/Fw|<1.3; 2.5<|F3/Fw|<2.7; 2.81<|F5/Fw|<2.83; and 0.21<|F2/F4|<0.24, wherein F1-F5 respectively represent the effective focal lengths of the first, second, third, fourth, and fifth lens groups, Fw represents the shortest effective focal length of the zoom projection lens. | 05-03-2012 |
20120105973 | ZOOM LENS SYSTEM - A zoom lens system includes, from the object-side to the image-side thereof, a first lens group, a second lens group, and a third lens group. The first lens group includes a first lens and a second lens. The second lens includes a third lens, a fourth lens, and a fifth lens. The fourth lens and the fifth lens are attached to each other. The third lens group includes a sixth lens. The zoom lens system satisfies the following conditions: 0.3505-03-2012 | |
20120105975 | ZOOM LENS SYSTEM HAVING HIGH ZOOM RATIO AND SHORT OVERALL LENGTH - A zoom lens system includes, in order from the subject side to the image side thereof, a first lens group of positive refractive power, a second lends group of negative refractive power, a third lens group of positive refractive power, and a fourth lens group of positive refractive power. The zoom lens system satisfies the following formulas: −0.1505-03-2012 | |
20120105978 | PROJECTION LENS SYSTEM WITH HIGH RESOLUTION AND COMPACT SIZE - A projection lens system includes, from the magnified side to the reduced side thereof, a first lens group having negative refractive power, a second lens group having positive refractive power, a third lens group having positive refractive power, and a field lens. The projection lens system satisfies the following conditions: 2.905-03-2012 | |
20120105979 | TRANSFER LENS AND WIDE-ANGLE LENS SYSTEM USING SAME - A lens system includes a main lens and a transfer lens aligned with the main lens. The optical axis of the main lens is superposed on that of the transfer lens. The transfer lens includes, in order from the object side to the image side thereof, a first lens having negative refraction power, and a second lens having positive refraction power. The lens system satisfies the following conditions: 0.4<|f1/f2|<0.8; 205-03-2012 | |
20120105980 | 360 DEGREE VIEWING ANGLE LENS UNIT AND OPTICAL LENS SYSTEM USING SAME - A 360 degree viewing angle lens unit, from the object side to the image side thereof, includes a 360 degree viewing angle lens and a relay lens. The viewing angle lens includes an annular incident surface, a first reflective surface, a second reflective surface, and an emitting surface. The annular incident surface has a positive radius of curvature and symmetrically concentric around an optical axis of the lens unit. The first reflective surface has a positive radius of curvature and is symmetrically concentric around the optical axis. The second reflective surface has a negative radius of curvature, and is coaxial with the incident surface. The emitting surface has a positive radius of curvature and is coaxial with the first reflective surface. The relay lens has a positive refractive power and is aligned with the emitting surface. The relay lens is configured for condensing image light output from the emitting surface. | 05-03-2012 |
20120105981 | WIDE-ANGLE LENS SYSTEM HAVING SHORT OVERALL LENGTH - A lens system includes, in order from the subject side to the image side of thereof, a first lens group of negative refractive power, a second lends group of positive refractive power, and an image plane. The first lens group includes a first spherical lens, a second spherical lens, and a third spherical lens arranged in this order from the subject side to the image side of the lens system. The first spherical lens includes a first subject surface and a first image surface. The lens system satisfies the following formula: 8.905-03-2012 | |
20120113526 | ZOOM PROJECTION LENS SYSTEM - A zoom projection lens system, in order from the magnification side to the minification side thereof, includes a first lens group with negative refraction power, a second lens group with positive refraction power, a third lens group with positive refraction power, a fourth lens group with negative refraction power; and a fifth lens group with positive refraction power. The first, second, third, fourth lens group are movably positioned, and the fifth lens group is immovably positioned. The first lens group includes a first aspherical plastic lens. The second lens group includes a second aspherical plastic lens. The fourth lens group includes a third aspherical plastic lens. The system satisfies the formula: −2.4≦F | 05-10-2012 |
20120127583 | IMAGE LENS SYSTEM - An image lens system includes a first lens group that includes a first and a second lens, a movable second lens group that includes a third and a fourth lens, and a third lens group that includes a fifth lens. The image lens system satisfies the formulas: 2.1≦Lw/(a*Y)<2.5; 1.9≦|Fp|/F | 05-24-2012 |
20120127585 | ZOOM LENS SYSTEM HAVING HIGH ZOOM RATIO AND SHORT OVERALL LENGTH - A zoom lens system includes a first lens group with positive refractive power, a second lens group with negative refractive power, a third lens group with positive refractive power, and a fourth lens group with positive refractive power. The lens groups can move along the optical axis of the zoom lens system. The zoom lens system satisfies the formula: 0.15<|L | 05-24-2012 |
20120169839 | WIDE-ANGLE ZOOM LENS AND CAMERA MODULE USING SAME - A wide-angle zoom lens includes a first lens group with positive refraction power, a second lens group with negative refraction power, a third lens group with positive refraction power, and a fourth lens group with positive refraction power. The first lens group, the second lens group, the third lens group, and the fourth lens group move along an optical axis of the zoom lens in focusing. The wide-angle zoom lens satisfies the formulas: 1.607-05-2012 | |
20120182626 | ZOOM PROJECTION LENS SYSTEM - A zoom projection lens system includes a first lens group with negative refraction power and a second lens group with positive refraction power. The first lens group includes a first lens with negative refraction power. The second lens group includes a second lens with positive refraction power, a third lens with positive refraction power, a fourth lens with negative refraction power, and a fifth lens with positive refraction power. The zoom projection lens system satisfies the following formulas: 1.9<|F1/Fw|<2.1, 0.5<|f4/Fw|<0.8, 0.95<|f5/Fw|<1.2, where “F1”, “f4” and “f5” are respectively the effective focal lengths of the first lens group, the fourth lens and the fifth lens, “Fw” is the effective focal lengths of the zoom projection lens system in the wide angle state. | 07-19-2012 |
20120314303 | PROJECTION LENS - A projection lens includes, in order from the magnification end to the minimization end thereof: a first lens group of a negative refractive power; and a second lens group of a positive refractive power. The projection lens satisfies the formula: 0.06112-13-2012 | |
20130088787 | ZOOM LENS AND IMAGING DEVICE USING SAME - Provided is a zoom lens for imaging an object on an imaging surface. The zoom lens includes, in the order from an object side to an image side thereof, a first lens group with positive refraction power, a second lens group with negative refraction power, a third lens group with positive refraction power, and a fourth lens group with positive refraction power. The first lens group includes a first surface. The zoom lens satisfies the formula: 0.15<|L3|/Lt<0.25, where L3 is a distance of the movement of the third lens group along an optical axis of the zoom lens when the zoom lens is switched between a wide-angle state and a telephoto state, and Lt is a distance from the first surface to the imaging surface. | 04-11-2013 |
20130094100 | LENS SYSTEM - A lens system with positive refraction power, in order from the object-side to the image-side, includes a first lens group with negative refraction power and a second lens group with positive refraction power. The first lens group includes a first lens with negative refraction power, a second lens with positive refraction power, and a third lens with positive refraction power. The second lens group includes a fourth lens with negative refraction power, a fifth lens, and a sixth lens. The lens system satisfies the following condition: 504-18-2013 | |
20130100541 | LENS SYSTEM WITH REDUCED LENGTH AND HIGH RESOLUTION - A lens system includes, in this order from the object side to the image side of the lens system, a first lens group and a second lens group. The first lens group includes, in this order from the object side to the image side of the lens system, a first lens of negative refractive power and a second lens of positive refractive power. The second lens group includes, in this order from the object side to the image side of the lens system, a third lens of negative refractive power, a fourth lens positive refractive power, and a fifth lens of negative or positive refractive power. The lens system satisfies the following condition formula: 0.304-25-2013 | |
20130100544 | PROJECTION LENS SYSTEM WITH HIGH RESOLUTION AND COMPACT SIZE - A projection lens system includes, in order from the magnified side to the reduced side thereof, a first lens group with negative refractive power, a second lens group with a positive refracting power, and a spatial light modulator. The projection lens system satisfies the following condition: 3.47804-25-2013 | |
20130107375 | IMAGE LENS WITH LOW CHROMATIC ABERRATION AND HIGH RESOLUTION | 05-02-2013 |
20130135752 | ZOOM LENS SYSTEM - A zoom lens system includes a first lens group of negative refractive power, a second lens group of positive refractive power and a third lens group of positive refractive power. The zoom lens system satisfies the following condition formulas: 0.78<|f | 05-30-2013 |
20130141804 | PROJECTION LENS SYSTEM WITH LONG BACK FOCAL LENGTH - A projection lens system, in the order from a magnified side to a reduced side, includes a first lens group with negative refraction power and a second lens group with positive refraction power. The projection lens system satisfies the formulas: −1.5506-06-2013 | |
20130148210 | PROJECTION LENS SYSTEM - A projection lens system includes, in order from a screen-side to an SLM-side thereof, a first lens group of negative refractive power which includes a first lens, and a second lens group of positive refractive power. The second lens group includes a second to fifth lenses in order from the screen-side to the SLM-side of the projection lens system. The projection lens system satisfies the following condition formulas: 1.95<|F1/Fw|<2.15, 0.5<|f4/Fw|<0.7, and 1.05<|f5/Fw|<1.25, where F1 is the effective focal length of the first lens group, f4 is the focal length of the fourth lens, and f5 is the focal length of the fifth lens, Fw is the effective focal length of the projection lens system which is in the wide-angle state. | 06-13-2013 |
20130148213 | PROJECTION LENS SYSTEM WITH HIGH RESOLUTION AND COMPACT SIZE - A projection lens system includes, in order from the magnified side to the reduced side thereof, a first lens group with negative refractive power, and a second lens group with a positive refracting power. The first lens group includes a first lens having a negative refracting power. The projection lens system satisfies the following condition: | 06-13-2013 |
20130155511 | ZOOM LENS SYSTEM - A zoom lens system includes, in order from the object side to the image side, a first, a second, and a third lens groups. The first lens group includes, in order from the object side to the image side, a first and a second lenses. The second lens group is capable of floating to realize an image stabilizating function and includes, in order from the object side to the image side, a third to sixth lenses. The zoom lens system satisfies various formulas, including 0.306-20-2013 | |
20130163093 | WIDE-ANGLE ZOOM LENS SYSTEM - A wide-angle zoom lens system includes a first lens group with negative refraction power, a second lens group with positive refraction power, and a third lens group with positive refraction power. The first lens group, the second lens group, and the third lens group move along an optical axis of the zoom lens system in focusing. The wide-angle zoom lens system satisfies the formulas: 0.77<|f2/f1|<1.1; and 0.706-27-2013 | |
Hsiang-En Peng, Tu-Cheng TW
Patent application number | Description | Published |
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20080225154 | DIGITAL CAMERA AND MENU DISPLAY METHOD OF SAME - A digital camera includes a rotatable wheel, a screen, and a menu display system for displaying menu on the screen. The menu display system includes a primary menu having a number of menu options and may have one or more hierarchical submenu options. The submenu is disk-shaped with a number of sub-submenu options displayed around the disk, each of the sub-submenu options can be selected by rotating the rotatable wheel clockwise or anticlockwise. The digital camera is capable of being operated quickly and efficiently. | 09-18-2008 |
20080240620 | Electronic device with simplified operation input/output module - An electronic device includes an imaging unit configured for capturing an image of a subject, a memory unit configured for storing data and images; a processing unit configured for processing data and images; a display unit configured for displaying data and images; and a central processing unit configured for processing various signals and images. The processing unit includes a replay module, a selection module, a function module, a menu module and an input/output unit. The input/output unit is configured for activating anyone of the replay module, the selection module, the function module and the menu module. The application system for the electronic device through activating each module via the input/output interface unit can allow the use of the electronic device to be more convenient and simplified. | 10-02-2008 |
Hsiu-Hui Peng, Tu-Cheng TW
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20130138852 | ELECTRONIC DEVICE WITH BASEBOARD MANAGEMENT CONTROLLER - An electronic device includes an IOM and a BMC. The IOM includes at least one pair of ports, each port capable of being connected to an external device, and each pair of ports is configured for exchanging data between two external devices connected to two ports of the pair. The BMC is electrically connected to the IOM, to respond to a user input to provide an interface for the user to input commands to control a working mode of each pair of ports of the IOM. | 05-30-2013 |
20130205129 | BASEBOARD MANAGEMENT CONTROLLER SYSTEM - A baseboard management controller (BMC) system for an electronic device includes a BMC, a multiplex switch, a manual operation element, a main storage, and a backup storage. Manual operations applied to the manual operation element are capable of selecting electrical connection statuses of the multiplex switch. Both the main storage and the backup storage store boot program of the electronic device. The BMC is selectively electrically connected to either the main storage or the backup storage via the multiplex switch and the manual operation element, and selectively calls the boot program stored in either the main storage or the backup storage to actuate the electronic device. | 08-08-2013 |
Hua-Jui Peng, Tu-Cheng TW
Patent application number | Description | Published |
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20100238952 | BROADBAND NETWORK TERMINAL AND METHOD FOR DYNAMICALLY ALLOCATING NETWORK ACCESS RESOURCES - A broadband network terminal receives user connection requests, and calculates an average value of network access resources according to original users and at least one newly-added user. The broadband network terminal determines whether the network access resources utilized by each original user exceed the average value, determines whether the network access resources are unavailable when the network access resources utilized by at least one original user exceed the average value, and releases network access resources utilized by the at least one original user that exceed the average value when the network access resources are unavailable. The broadband network terminal then allocates average network access resources to the newly-added user. | 09-23-2010 |
20110067103 | ROUTER FOR PREVENTING PORT SCANS AND METHOD UTILIZING THE SAME - A router and method for preventing port scans using a router includes receiving a datagram from a remote computer, transferring the datagram to a local computer, and receiving a response datagram from the local computer. The router and method further includes dropping the response datagram if the response datagram is an Internet Control Messages Protocol (ICMP) port unreachable datagram and the ICMP port unreachable datagram is abnormal, and recording a port scan event of the remote computer into the log system. | 03-17-2011 |
20110258318 | NETWORK DEVICE AND METHOD FOR DYNAMICALLY ALLOCATING CONNECTION RESOURCES - A network device receives a new connection request from one of a plurality of clients, and determines whether all connection resources are unavailable. If all the connection resources are unavailable, the network device further determines whether a difference between connection resources occupied by the one client and a connection resource hog client is less than a determined threshold. The connection resource hog client is another one of the plurality of clients which occupies most connection resources. If the difference is less than the determined threshold, the network device releases a first connection resource with a predefined priority that is found in the connection resources occupied by the one client, and allocates the released connection resource to the one client according to the new connection request. | 10-20-2011 |
Kuan-Chiao Peng, Tu-Cheng TW
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20120254297 | DATA SORTING SYSTEM AND METHOD - A remote computer and method sort data obtained from cloud servers of a data center. The remote computer obtains the data from the cloud servers and inserts the obtained data into one or more table. The remote computer sorts the data stored in the one or more table by a structure sorting algorithm. The remote computer stores the sorted data into a database electronically connected to the remote computer. | 10-04-2012 |
20120265908 | SERVER AND METHOD FOR BUFFERING MONITORED DATA - A method for buffering monitored data received from a monitoring device. The received monitored data is buffered into a buffer area and all of the monitored data from the buffer area is stored to a database server when a current count of data in the buffer area equals a recycling predetermined count N. An address of the received monitored data is recorded in a data list. When a monitoring server receives request for monitored data from a client server, the required one or more items of monitored data is read from the buffer area and sent to the client server. | 10-18-2012 |
20130232487 | CONTROL COMPUTER AND METHOD FOR MANAGING VIRTUAL MACHINE - A method for managing virtual machines (VMs) installed in physical machines using a control computer, the method receives a control command for adjusting an initial size of a first VM, searches for a physical machine that has enough computing resources for creating a second VM of a specified size, creates the second VM of the specified size in a found physical machine. The method further copies computing resources of the first VM to the second VM at a first time, controls the first VM and the second VM running in a parallel mode until all of the computing resources of the first VM have been copied to the second VM, stops parallel running of the first VM and the second VM at a second time, deletes the first VM and releases the computing resource of the first VM. | 09-05-2013 |
20130254377 | SERVER AND METHOD FOR MANAGING MONITORED DATA - A monitoring server receives the latest monitored data and corresponding monitoring time from monitoring devices connected to the server at a specified time interval. The monitoring server records monitored data of each monitoring item and the corresponding monitoring time to a pointed node of a device data list, and adds the monitored data and the corresponding monitoring time, which are recorded in the pointed node of the device data list, into a monitored data list. When a web server requests real-time monitored data, corresponding monitored data is read from the device data list and sent to the web server. When the web server requests historical monitored data of an designated period, corresponding monitored data of the designated period is read from the monitored data list and sent to the web server. | 09-26-2013 |
Kuo-Lin Peng, Tu-Cheng TW
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20090147996 | SAFE FOLLOWING DISTANCE WARNING SYSTEM AND METHOD FOR A VEHICLE - A safe following distance warning system for a vehicle includes a forward-looking image capturing unit, a speed sensor, a processor, and a warning output device. The forward-looking image capturing unit is for capturing images forward of the vehicle. The forward-looking image capturing unit includes a taking lens, an image sensor disposed behind the taking lens, an image processing unit, and a lens driving unit. The image processing unit is for calculating an in-focus position of the taking lens. The speed sensor is for sensing a current speed of the vehicle. The processor is for calculating a following distance from the vehicle to a vehicle directly forward of the vehicle and comparing the following distance to an applicable safe distance parameter. The warning output device is for outputting an alarm to the driver of the vehicle when the following distance is less than the applicable safe distance parameter. | 06-11-2009 |
Ming-Chi Peng, Tu-Cheng TW
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20090021605 | IMAGE CAPTURING DEVICE AND AUTO-FOCUS METHOD FOR SAME - An image capturing device includes a taking lens, an image sensor for capturing images of an object, an auto-focus system for focusing the image capturing device, and a memory. The memory stores an offset value represented between a pre-focus position and an in-focus position of the taking lens. The auto-focus system includes an image processing unit, a calculating unit, and a taking lens driving unit. The image processing unit is configured for comparing definition of the images to judge a clearest image therefrom, and detecting the pre-focus position of the taking lens. The calculating unit is configured for calculating the in-focus position of the taking lens according to the pre-focus position detected by the image processing unit and the offset value. The taking lens driving unit is used for moving the taking lens during focusing process. | 01-22-2009 |
Shih-Yen Peng, Tu-Cheng TW
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20110156961 | WIDE BAND ANTENNA - A wide band antenna includes a radiation element, a ground surface, a dielectric element, a connector; a first microstrip feeder and a second microstrip feeder. The radiation element is a rectangle shaped and includes a first side and a second side. The lengths of the first side and the second side are not equal. The dielectric element is positioned between the radiation element and the ground surface. One end of the first microstrip feeder is connected to the first side of the radiation element. One end of the second microstrip feeder is connected to the second side of the radiation element, the other ends of the first and second microstrip feeder are connected to the connector. | 06-30-2011 |
Tse-Shan Peng, Tu-Cheng TW
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20090315689 | VIBRATION ASSEMBLY FOR PORTABLE ELECTRONIC DEVICE - A vibrating device for portable electronic device includes a frame, a main circuit board, a motor and a secondary circuit board. The frame defines a recess and a receiving hole. The main circuit board is fixed in the recess of the frame. The motor is fixed in the receiving hole of the frame. The secondary circuit board electronically connects the main circuit board and the motor. | 12-24-2009 |
20100321867 | SLIDING MECHANISM FOR SLIDE-TYPE ELECTRONIC DEVICE - A sliding mechanism for a portable electronic device includes a fixing member, at least one first elastic member arranged at a side of the fixing member, a sliding member, and at least one second elastic member arranged at a side of the sliding member. The first elastic member includes an arcuate first resisting section, the second elastic member includes an arcuate second resisting section, the second resisting section is shorter than the first resisting section. The sliding member is assembled with the fixing member and the second resisting section elastically resists with the first resisting section. The sliding member can automatically slide due to resilient forces between the first resisting section and the second resisting section. | 12-23-2010 |
Yao-Che Peng, Tu-Cheng TW
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20110255262 | ELECTROMAGNETIC SHIELDING ENCLOSURE AND ELECTRONIC APPARATUS HAVING SAME - An electromagnetic shielding enclosure includes a main body for enclosing a mounting region of a printed circuit board, a plurality of fixing fins, and a number of resilient fins. The fixing fins and resilient fins extend out from edges of the main body. Each of the resilient fins has a protrusion formed thereon. The fixing fins are configured for being fixedly attached the main body on the PCB in a manner that ensures the main body encloses the mounting region and the protrusions resiliently contact with a grounding region of the printed circuit board. | 10-20-2011 |
Ya-Yi Peng, Tu-Cheng TW
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20100031013 | INJECTION MOLDING SYSTEM AND PARAMETER SETTING METHOD THEREOF - An injection molding machine system for setting system parameters provides an interface unit displaying a boot interface, a common module interface, a new module setting interface, and a main operating interface. If not all the system parameter values need be modified, the system parameters are loaded on the boot interface and the main operating interface are started. If some of the system parameter values need be modified, the system parameter values are loaded, modified, and saved on the common module interface and the main operating interface are started. If all the system parameter values need be set, the system parameter values are saved on the new module setting interface and the main operating interface are started. If the system parameter values modified need be fine-tuned, the system parameter values are fine-tuned on the main operating interface. | 02-04-2010 |
20100064056 | COMMUNICATION SYSTEM AND METHOD - A communication system includes a computer terminal and a server. The computer terminal includes a command control module and a response detecting module. The server includes a response control module. The command control module is configured for sending a command to the server. The response control module is configured for receiving the command, calculating a command check reference value according to the received command using a first formula, and sending a response to the response detecting module. The response detecting module is configured for calculating a response check reference value according to the response using a second formula. If the response check reference value is not equal to the response checksum bits value, the command control module resends the command corresponding to the received command to the server. | 03-11-2010 |