Patent application number | Description | Published |
20100069073 | SYSTEM AND METHOD FOR SYSTEM SWITCH AND HANDOVER BETWEEN WIRELESS COMMUNICATION SYSTEMS - A method of a base station for wireless communication includes providing a first zone and a second zone for wireless communication; operating the first zone using a first operation mode; and operating the second zone using a second operation mode. The method also includes communicating with a mobile station in the first zone using the first operation mode; determining whether the mobile station is capable of operating using both the first operation mode and the second operation mode; and performing, if the mobile station is determined to be capable of operating using both the first and second operating modes, a zone switch procedure to switch the mobile station from the first zone using the first operation mode to the second zone using the second operation mode. | 03-18-2010 |
20100222062 | METHOD, APPARATUS AND SYSTEM FOR INTERFERENCE AVOIDANCE IN A FEMTOCELL NETWORK - A method of providing interference avoidance in a femtocell network may include receiving, at a femtocell base station defining a femtocell coverage area, an allocation of reserved resources for control signaling and data transmission in which the allocation is received from a macro cell base station defining a macro cell coverage area. The femtocell base station may be located and the femtocell includes a portion of the macro cell coverage area. The method may further include enabling usage of the reserved resources by the femtocell base station responsive to receipt of the allocation to provide interference avoidance with respect to femtocell and macro cell communications. The method may further include disabling usage of the reserved resources by the macro cell base station responsive to the allocation of the reserved resources. | 09-02-2010 |
20110014915 | METHOD FOR MOBILE COMMUNICATION AND SYSTEM THEREOF - A method for mobile communication and a system thereof are provided. The system for mobile communication includes a main base station and a plurality of sub-communication devices. The sub-communication device is one of a sub-base station and a user equipment. The sub-base stations and the user equipments are located in the macrocell of the main base station. The method includes the following steps. First, locations of the sub-communication devices are obtained. Then, the sub-communication devices are grouped based on the locations of the sub-communication devices. And, an allocation of resource blocks is obtained according to the grouping results. The sub-communication devices receive the allocation of resource blocks for control signaling and data transmission. And, the usage of same resource blocks are enabled by the sub-base station allocated in the same resource blocks in response to receipt of the allocation. | 01-20-2011 |
20110111755 | WIRELESS COMMUNICATION SYSTEM, COMMUNICATION DEVICE AND BASE STATION THEREOF - A wireless communication system delivering neighbor information (NBR-INF) and a base station and a wireless communication device thereof are proposed. The wireless communication system includes at least a mobile station and a base station. The base station decides delivering the NBR-INF triggered by events, determines type of the NBR-INF to be delivered and determines a delivery rule of the NBR-INF to be delivered. The mobile station, wirelessly connected to the at least a base station, receives the NBR-INF delivered from the at least a base station, and decides to completely renew or partially update its own neighbor information contents. | 05-12-2011 |
20110158168 | SIGNAL INTERFERENCE HANDLING METHOD AND SYSTEM AND APPARATUS USING THE SAME - A signal interference handling method adapted to a cellular system, and a system and an apparatuses using the same are provided, where the cellar system includes a macro/micro cell base station (MBS), a home base station (HBS), and a MBS-served mobile station (m-MS), and the signal interference handling method includes steps. The m-MS detects whether there is mutual interference. The m-MS sends an interference mitigation (IM) request to the HBS if there is mutual interference. The HBS enters a low duty mode (LDM) after the HBS receives the IM request. | 06-30-2011 |
20120063305 | PRIORITIZED RANDOM ACCESS METHOD - Prioritized random access methods are proposed. According to an embodiment, random access attempts are classified into the priority levels according to delay requirements, and adedicated random access opportunities are reserved for different priority levels. A congestion detecting mechanism is introduced for such dedicated ranging (random access) opportunities. When congestion is detected by the base station, parameters or configurations of random access can be dynamically or temporarily modified through random access response message. Furthermore, a prioritized contention resolution is introduced to guarantee a high priority access is processed earlier than a low priority access. According to another embodiment, another prioritized contention resolution is introduced to reduce the impact of random access of a low priority M2M device upon H2H traffic. | 03-15-2012 |
20140071912 | METHOD OF COOPERATIVE MIMO WIRELESS COMMUNICATION AND BASE STATION USING THE SAME - The present disclosure proposes a method of cooperative MIMO wireless communication, and a base station using the same. A base station would have a plurality of radio remote units (RRUs), and each of the RRUs may have a specific radio coverage and a plurality of antennas coupled to each of the RRUs. The function of the base station may include receiving a UE information, receiving a service flow, deriving a service type of the service flow, and determining a MIMO scheme, modulating the service flow into a MIMO stream according to the MIMO scheme, allocating a plurality of resource blocks, wherein the resource blocks may correspond to a portion or all of the RRUs, distributing the MIMO stream into a plurality of downlink sub streams and transmitting the downlink sub streams through the resource blocks by the RRUs corresponding to the resource blocks. | 03-13-2014 |
Patent application number | Description | Published |
20090125923 | Slot-In Disk Drive - A disk drive includes an insert-and-eject device and a disk guide unit. The insert-and-eject device is used for inserting an optical disk into and ejecting the disk from the disk drive. The disk guide unit includes a rack and a slide member connected operably to the insert-and-eject device in such a manner that reciprocal movement of the disk guide unit along a first direction permits the slide member to drive the insert-and-eject device to insert and eject the optical disk from the disk drive. An emergency release device is mounted on the slide member, and includes a horizontal element movable along a second direction. The rack is formed with a retention groove such that the movement of the horizontal element along the second direction permits a part of the horizontal element extend within or exit the retention groove so as to couple the slide member with the rack or to disengage the slide member from the rack. | 05-14-2009 |
20100251273 | Slot-In Disc Drive having Adjustable Disc Ejection Distance - A slot-in disc drive is provided to comprise an ejecting lever rotated about a rotating axis; a first sensor and a second sensor, disposed on the rotating path of the ejecting lever; and a firmware, built in the disc drive for selecting a first setting or a second setting according to the size of a loaded disc, wherein the first and the second settings are respectively related to the first and the second sensors, and the firmware controls the ejecting lever to stop rotating based on the selected setting. | 09-30-2010 |
20120023511 | Slot-In Disc Drive Having Adjustable Disc Ejection Distance - A slot-in disc drive is provided to comprise an ejecting lever rotated about a rotating axis; a first sensor and a second sensor, disposed on the rotating path of the ejecting lever; and a firmware, built in the disc drive for selecting a first setting or a second setting according to the size of a loaded disc, wherein the first and the second settings are respectively related to the first and the second sensors, and the firmware controls the ejecting lever to stop rotating based on the selected setting. | 01-26-2012 |
20120036520 | Slot-In Optical Disc Drive - A slot-in optical disc drive is provided to comprise a driving element moveably disposed in the optical disc and capable of moving toward a disc loading direction and a disc unloading direction, wherein the driving element has a loading drive groove; a disc loading element pivoted in the optical disc drive, wherein the disc loading element has a loading driven pin for operating with the loading drive groove; a disc unloading element pivoted in the optical disc drive; and an elastic element used for providing an elastic force on the disc unloading element. When the driving element moves toward the disc unloading direction, the loading driven pin relatively moves in the loading drive groove and drives the disc loading element to rotate and push a disc into the optical disc drive. When the driving element moves toward the disc loading direction, the elastic force provided from the elastic element drives the disc unloading element to rotate and push the disc out of the optical disc. | 02-09-2012 |
20130283300 | TRAY LOCKING DEVICE OF OPTICAL DISC DRIVE - A tray locking device of an optical disc drive adapted to lock and release a tray is provided. The optical disc drive has an optical head engaged with a lead screw and driven to move by the lead screw. The tray locking device includes a pushing member disposed on the optical head, a latching hook for latching and releasing a pin, and a transmission assembly disposed between the pushing member and the latching hook. The transmission assembly includes first and second lever elements. The first lever element pivoted in the tray has a slide slot having a first protrusion portion therein. The second lever element has a second protrusion portion adapted to move within the slide slot. When the tray is to be ejected, the lead screw drives the pushing member to push the second lever element, such that the second protrusion portion is aligned with the first protrusion portion. | 10-24-2013 |
20130298144 | TRAY LOCKING DEVICE FOR OPTICAL DISC DRIVE - A tray locking device adapted to an optical disc drive for locking and releasing a tray is provided. The optical disc drive has an optical head connected to a lead screw and driven to move by the lead screw. The tray locking device includes a pushing member driven to move by the lead screw, a latching hook for locking and releasing a protruding pin, and a transmission assembly configured between the pushing member and the latching hook. The transmission assembly includes a first rod and a second rod movably configured in the tray. The first rod has a first driving portion, and the second rod has a second driving portion. When the transmission assembly is located at an initial position, the first driving portion is located on a moving path of the pushing member, while the second driving portion is not located on the moving path of the pushing member. | 11-07-2013 |