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    • 1. 发明申请
    • METHODS AND SETS OF PICONETS USING TIME FREQUENCY DIVISION MULTIPLE ACCESS
    • 使用时频分多址访问的方法和集合
    • WO2004036833A2
    • 2004-04-29
    • PCT/US2003/033125
    • 2003-10-17
    • ALEREON, INC.PENDERGRASS, Marcus, H.BRETHOUR, Vernon, R.
    • PENDERGRASS, Marcus, H.BRETHOUR, Vernon, R.
    • H04L12/28
    • H04L5/0037H04L5/0062H04L5/0073H04W84/18
    • A set of piconets and corresponding methods and computer programs may reduce contention time between piconets. In one embodiment, a seven-length code architecture may be used with group(s) of bands so that contention time cannot exceed 1/7 of the time. Up to seven different bands can be used within each group. When less than seven bands are used (e.g., three or six), at least one of the bands may be assigned to more than one dwell time during a time span. Alternatively, each dwell time within the time span may be assigned to a different band. The state may be changed as needed or desired. Substitution of extra bands may also be used. Using either scheme (repeated bands or changing states), a prime-number architecture can be used with a non-prime number of different bands. Simultaneous communications using at least two bands within a piconet may be used.
    • 一组微微网和相应的方法和计算机程序可以减少微微网之间的竞争时间。 在一个实施例中,七长度代码架构可以与频带组一起使用,使得争用时间不能超过时间的1/7。 每个组中最多可以使用七个不同的频段。 当使用小于7个频带(例如,三个或六个)时,可以在一段时间间隔内将至少一个频带分配给多于一个停留时间。 或者,可以将时间范围内的每个停留时间分配给不同的频带。 状态可以根据需要而改变。 也可以使用额外频带的替代。 使用任一方案(重复频带或改变状态),素数架构可以与非素数的不同频带一起使用。 可以使用在微微网内使用至少两个频带的同时通信。
    • 4. 发明申请
    • METHOD AND SYSTEM FOR A SCALABLE RADIO ARCHITECTURE
    • 可扩展无线电架构的方法和系统
    • WO2005076994A2
    • 2005-08-25
    • PCT/US2005003850
    • 2005-02-04
    • ALEREON INCLANSFORD JAMES LSHORT ROBERT T
    • LANSFORD JAMES LSHORT ROBERT T
    • H04B1/69H04L5/02H04L5/06H04Q7/00
    • H04L5/023H04B1/7163H04L5/06
    • Systems and methods for a scalable architecture for radio device and systems are disclosed. This architecture employs a scalable bandwidth to deliver higher data rates and transmission ranges to devices that need them, while still delivering lower power solutions for devices which utilize a smaller bandwidth. These systems and methods may divide the available frequency spectrum into a set of fundamental sub-bands. Different devices may use various multiples of these sub-bands depending on their needs. Devices employing this architecture are also capable of interoperation with one another regardless of the bandwidth they utilize. A device may scan through each sub-band within which the device intends to operate, searching for a common beacon transmitted by other devices utilizing the sub-band. If a beacon is found the device can choose to interoperate with the other device or, alternatively, continue scanning the sub-bands until an unused sub-band is found.
    • 公开了用于无线电设备和系统的可扩展架构的系统和方法。 该架构采用可扩展的带宽,为需要它们的设备提供更高的数据速率和传输范围,同时为使用较小带宽的设备提供更低功耗的解决方案。 这些系统和方法可以将可用频谱划分成一组基本子带。 不同的设备可以根据需要使用这些子带的各种倍数。 采用该架构的设备也可以彼此互操作,而不管其利用的带宽如何。 设备可以扫描设备想要操作的每个子带,搜索利用子带的其他设备发送的公共信标。 如果发现信标,则设备可以选择与其他设备互操作,或者替代地,继续扫描子带直到找到未使用的子带。
    • 8. 发明申请
    • METHODS AND SETS OF PICONETS USING TIME FREQUENCY DIVISION MULTIPLE ACCESS
    • 使用时频分割多路访问的方法和胶片集
    • WO2004036833A3
    • 2004-08-12
    • PCT/US0333125
    • 2003-10-17
    • ALEREON INCPENDERGRASS MARCUS HBRETHOUR VERNON R
    • PENDERGRASS MARCUS HBRETHOUR VERNON R
    • H04B1/713H04L12/28H04L12/56H04W28/04H04W84/18
    • H04L5/0037H04L5/0062H04L5/0073H04W84/18
    • A set of piconets and corresponding methods and computer programs may reduce contention time between piconets. In one embodiment, a seven-length code architecture may be used with group(s) of bands so that contention time cannot exceed 1/7 of the time. Up to seven different bands can be used within each group. When less than seven bands are used (e.g., three or six), at least one of the bands may be assigned to more than one dwell time during a time span. Alternatively, each dwell time within the time span may be assigned to a different band. The state may be changed as needed or desired. Substitution of extra bands may also be used. Using either scheme (repeated bands or changing states), a prime-number architecture can be used with a non-prime number of different bands. Simultaneous communications using at least two bands within a piconet may be used.
    • 一组微微网以及相应的方法和计算机程序可以减少微微网之间的争用时间。 在一个实施例中,七长码体系结构可以与一个或多个频带组一起使用,使得争用时间不能超过时间的1/7。 每个组内最多可以使用七个不同的频段。 当使用少于七个频带(例如三个或六个)时,至少一个频带可以在一段时间间隔内被分配多于一个驻留时间。 或者,可以将时间跨度内的每个停留时间分配给不同的频带。 状态可能会根据需要或需要进行更改。 也可以使用替换额外的乐队。 使用任一方案(重复频带或改变状态),素数结构可以与非素数的不同频带一起使用。 可以使用在微微网内使用至少两个频带的同时通信。