公开(公告)号：US20190141575A1

公开(公告)日：2019-05-09

申请号：US16220960

申请日：2018-12-14

Applicant: Parallel Wireless, Inc.

Inventor： Steven Paul Papa ,  Rajesh Kumar Mishra ,  Kaitki Agarwal ,  Sridhar Donepudi ,  Sumit Garg ,  Kartik Shashikant Raval ,  Prashanth Rao

IPC: H04W28/10 ,  H04B1/3816 ,  H04L29/12 ,  H04L12/46 ,  H04L12/66

Abstract: Systems and methods are disclosed for enabling a mesh network node to switch from a base station role to a user equipment role relative to a second mesh network node, and vice versa. By switching roles in this manner, the mesh network node may be able to benefit from increased uplink or downlink speed in the new role. This role reversal technique is particularly useful when using wireless protocols such as LTE that are asymmetric and allow differing throughput on uplink and downlink connections. Methods for determining whether to perform role reversal are disclosed, and methods for using role reversal in mesh networks comprising greater than two nodes are also disclosed.

公开(公告)号：US20180324674A1

公开(公告)日：2018-11-08

申请号：US16031670

申请日：2018-07-10

Applicant: Parallel Wireless, Inc.

Inventor： Kartik Shashikant Raval ,  Rajesh Kumar Mishra ,  Kaitki Agarwal ,  Sridhar Donepudi ,  Pratik Mehta ,  Yang Cao ,  Steven Paul Papa

IPC: H04W48/02 ,  H04W12/06 ,  H04W84/04

CPC classification number: H04W48/02 ,  H04W12/06 ,  H04W84/042 ,  H04W88/12

Abstract: A method may be disclosed in accordance with some embodiments, comprising: receiving, at a virtualizing gateway, a first service request from a first user equipment (UE) via a first eNodeB; creating, at the virtualizing gateway, an association from each of a plurality of UE identifiers to a desired core network; applying, at the virtualizing gateway, a first filter using a first UE identifier of the first UE, based on the association; forwarding, at the virtualizing gateway, based on the applied first filter, the first service request from the first UE to the first core network; receiving, at the virtualizing gateway, via a second eNodeB, a second service request from a second user equipment (UE); applying, at the virtualizing gateway, a second filter using a second UE identifier of the second UE, based on the association; and forwarding, at the virtualizing gateway, based on the applied second filter, the second service request from the second UE to the second core network.

公开(公告)号：US20180279404A1

公开(公告)日：2018-09-27

申请号：US15991741

申请日：2018-05-29

Applicant: Parallel Wireless, Inc.

Inventor： Rajesh Kumar Mishra ,  Kaitki Agarwal ,  Steven Paul Papa ,  Sridhar Donepudi

IPC: H04W76/23 ,  H04W36/30 ,  H04B17/309 ,  H04L12/26 ,  H04W84/18

CPC classification number: H04W76/23 ,  H04B17/309 ,  H04L43/16 ,  H04W36/03 ,  H04W36/30 ,  H04W84/18

Abstract: In this invention, we disclose methods for enabling ad hoc cellular base station functionality within a user equipment when the connection quality between a base station and the user equipment is limited or nonexistent. These methods include measuring a connection quality between a user equipment and its serving base station. If the connection quality is below a threshold, the user equipment can enable its internal ad hoc cellular base station functionality. This is done by running a software within the user equipment that (a) checks the connection quality periodically, and (b) enables ad hoc cellular base station functionality of the connection threshold dips below a certain value. In one embodiment, that threshold could be the same threshold value that a user equipment would use if it were making a decision to handoff to another base station based on poor connection quality.

公开(公告)号：US09491801B2

公开(公告)日：2016-11-08

申请号：US14034915

申请日：2013-09-24

Applicant: Parallel Wireless, Inc.

Inventor： Sridhar Donepudi ,  Sumit Garg ,  Kaitki Agarwal ,  Rajesh Kumar Mishra ,  Steven Paul Papa

IPC: H04W4/00 ,  H04W88/10 ,  H04W36/14 ,  H04W60/00

CPC classification number: H04W88/10 ,  H04L41/12 ,  H04L67/2842 ,  H04W36/0022 ,  H04W36/14 ,  H04W60/00 ,  H04W64/003 ,  H04W84/18

Abstract: We disclose systems and methods of dynamically virtualizing a wireless communication network. The communication network is comprised of heterogeneous multi-RAT mesh nodes coupled to a computing cloud component. The computing cloud component virtualizes the true extent of the resources it manages and presents an interface to the core network that appears to be a single base station.

Abstract translation: 我们公开了动态虚拟化无线通信网络的系统和方法。 通信网络由耦合到计算云组件的异构多RAT网状节点组成。 计算云组件虚拟化其管理的资源的真实范围，并呈现出似乎是单个基站的核心网络的接口。

公开(公告)号：US09386480B2

公开(公告)日：2016-07-05

申请号：US14453365

申请日：2014-08-06

Applicant: Parallel Wireless, Inc.

Inventor： Steven Paul Papa ,  Rajesh Kumar Mishra ,  Kaitki Agarwal ,  Sridhar Donepudi ,  Sumit Garg ,  Kartik Shashikant Raval ,  Prashanth Rao

IPC: H04W28/10 ,  H04L12/46 ,  H04W88/08 ,  H04W36/00 ,  H04W84/20 ,  H04W76/02 ,  H04W88/02

CPC classification number: H04W28/10 ,  H04L12/4633 ,  H04W36/00 ,  H04W76/12 ,  H04W84/20 ,  H04W88/02 ,  H04W88/08

Abstract: Systems and methods are disclosed for enabling a mesh network node to switch from a base station role to a user equipment role relative to a second mesh network node, and vice versa. By switching roles in this manner, the mesh network node may be able to benefit from increased uplink or downlink speed in the new role. This role reversal technique is particularly useful when using wireless protocols such as LTE that are asymmetric and allow differing throughput on uplink and downlink connections. Methods for determining whether to perform role reversal are disclosed, and methods for using role reversal in mesh networks comprising greater than two nodes are also disclosed.

Abstract translation: 公开了用于使网状网络节点相对于第二网状网络节点从基站角色切换到用户设备角色的系统和方法，反之亦然。 通过以这种方式切换角色，网状网络节点可能能够受益于新角色中增加的上行链路或下行链路速度。 当使用诸如LTE之类的无线协议并且允许上行链路和下行链路连接上的不同吞吐量时，这种角色颠倒技术特别有用。 公开了确定是否执行角色反转的方法，还公开了在包括大于两个节点的网状网络中使用角色颠倒的方法。

公开(公告)号：US20160029430A1

公开(公告)日：2016-01-28

申请号：US14777246

申请日：2014-03-14

Applicant: PARALLEL WIRELESS, INC.

Inventor： Rajesh Kumar Mishra ,  Kaitki Agarwal ,  Steven Paul Papa ,  Sridhar Donepudi

IPC: H04W76/04 ,  H04B17/309 ,  H04L12/26

CPC classification number: H04W76/23 ,  H04B17/309 ,  H04L43/16 ,  H04W36/30 ,  H04W84/18

Abstract: In this invention, we disclose methods for enabling ad hoc cellular base station functionality within a user equipment when the connection quality between a base station and the user equipment is limited or nonexistent. These methods include measuring a connection quality between a user equipment and its serving base station. If the connection quality is below a threshold, the user equipment can enable its internal ad hoc cellular base station functionality. This is done by running a software within the user equipment that (a) checks the connection quality periodically, and (b) enables ad hoc cellular base station functionality of the connection threshold dips below a certain value. In one embodiment, that threshold could be the same threshold value that a user equipment would use if it were making a decision to handoff to another base station based on poor connection quality.

Abstract translation: 在本发明中，当基站和用户设备之间的连接质量受到限制或不存在时，我们公开了在用户设备内启用自组织蜂窝基站功能的方法。 这些方法包括测量用户设备与其服务基站之间的连接质量。 如果连接质量低于阈值，则用户设备可以启用其内部自组织蜂窝基站功能。 这通过在用户设备内运行软件来完成，（a）定期检查连接质量，以及（b）使得连接阈值的ad hoc蜂窝基站功能降低到一定值以下。 在一个实施例中，如果用户设备基于较差的连接质量作出决定切换到另一个基站，该阈值可以是相同的阈值。

公开(公告)号：US09232547B2

公开(公告)日：2016-01-05

申请号：US14311839

申请日：2014-06-23

Applicant: Parallel Wireless Inc.

Inventor： Rajesh Kumar Mishra ,  Steven Paul Papa ,  Kaitki Agarwal ,  Sridhar Donepudi ,  Kartik Shashikant Raval

IPC: H04B7/00 ,  H04W76/02 ,  H04L12/66 ,  H04L12/46 ,  H04L12/64 ,  H04W72/04 ,  H04W88/14 ,  H04W16/00 ,  H04W16/14 ,  H04W84/02 ,  H04W40/04 ,  H04W92/02 ,  H04W84/18 ,  H04W28/18 ,  H04W74/00

CPC classification number: H04W72/085 ,  H04L12/4633 ,  H04L12/6418 ,  H04L12/66 ,  H04W16/00 ,  H04W16/14 ,  H04W24/08 ,  H04W28/18 ,  H04W36/04 ,  H04W36/30 ,  H04W40/04 ,  H04W72/0406 ,  H04W74/00 ,  H04W76/10 ,  H04W84/02 ,  H04W84/18 ,  H04W88/14 ,  H04W92/02

Abstract: In this invention, we disclose methods directed toward integrating an ad hoc cellular network into a fixed cellular network. The methods disclosed herein automate the creation and integration of these networks. In additional embodiments, we disclose methods for establishing a stand-alone, ad hoc cellular network. In either of these implementations, we integrate or establish an ad hoc cellular network using mobile ad hoc cellular base stations configured to transmit and receive over a variety of frequencies, protocols, and duplexing schemes. The methods flexibly and dynamically choose an access or backhaul configuration and radio characteristics to optimize network performance. Additional embodiments provide for enhancing an existing network's coverage as needed, establishing a local network in the event of a loss of backhaul coverage to the core network, and providing local wireless access service within the ad hoc cellular network.

公开(公告)号：US20150327148A1

公开(公告)日：2015-11-12

申请号：US14804016

申请日：2015-07-20

Applicant: Parallel Wireless, Inc.

Inventor： Kaitki Agarwal ,  Rajesh Kumar Mishra ,  Sridhar Donepudi ,  Steven Paul Papa ,  Murali Talluri ,  Sumit Garg ,  Pradeep Kumar Dakshayani Raghavan

IPC: H04W36/32 ,  H04W24/02 ,  H04W64/00

CPC classification number: H04W24/02 ,  H04W36/32 ,  H04W64/006 ,  H04W84/18

Abstract: This application discloses methods for creating self-organizing networks implemented on heterogeneous mesh networks. The self-organizing networks can include a computing cloud component coupled to the heterogeneous mesh network. In the methods and computer-readable mediums disclosed herein, a processor determines if a user equipment (UE) should hand over its service from a base station to a multi-radio access technology (RAT) node, based on heuristics including one or more of: a distance traveled over a time T1, an average speed over a time T2, a destination stored in internal memory within the UE, a speed limit measurement for a nearby road, a possible direction in which the UE could travel, a signal strength measurement for a servicing base station, and a signal strength measurement for the multi-RAT node. A position profile may be used to predict a future location of the UE.

Abstract translation: 该应用公开了用于创建在异构网状网络上实现的自组织网络的方法。 自组织网络可以包括耦合到异构网状网络的计算云组件。 在本文公开的方法和计算机可读介质中，处理器基于包括以下的一个或多个的启发式方式确定用户设备（UE）是否应将其服务从基站切换到多无线电接入技术（RAT）节点： ：在时间T1上行驶的距离，T2时刻的平均速度，存储在UE内部存储器中的目的地，附近道路的速度限制测量，UE可能行进的可能方向，信号强度测量 用于服务基站，以及用于多RAT节点的信号强度测量。 可以使用位置简档来预测UE的未来位置。

公开(公告)号：US20140092765A1

公开(公告)日：2014-04-03

申请号：US14024717

申请日：2013-09-12

Applicant: Parallel Wireless Inc.

Inventor： Kaitki Agarwal ,  Rajesh Kumar Mishra ,  Sridhar Donepudi ,  Steven Paul Papa ,  Murali Talluri ,  Sumit Garg ,  Pradeep Kumar Dakshayani Raghavan ,  Kartik Shashinkant Raval ,  Pratik Mehta

IPC: H04W24/02

CPC classification number: H04W24/02 ,  H04W84/18

Abstract: This application discloses methods for creating self-organizing networks implemented on heterogeneous mesh networks. The self-organizing networks can include a computing cloud component coupled to the heterogeneous mesh network. In the methods and computer-readable mediums disclosed herein, a processor receives an environmental condition for a mesh network. The processor may have measured the environmental condition, or it could have received it from elsewhere, e.g., internally stored information, a neighboring node, a server located in a computing cloud, a network element, user equipment (“UE”), and the like. After receiving the environmental condition, the processor evaluates it and determines whether an operational parameter within the mesh network should change to better optimize network performance.

Abstract translation: 该应用公开了用于创建在异构网状网络上实现的自组织网络的方法。 自组织网络可以包括耦合到异构网状网络的计算云组件。 在本文公开的方法和计算机可读介质中，处理器接收网状网络的环境条件。 处理器可以测量环境条件，或者可以从其他地方接收它，例如内部存储的信息，相邻节点，位于计算云中的服务器，网络元件，用户设备（“UE”），以及 喜欢。 处理器接收到环境条件后，对其进行评估，确定网状网络内的运行参数是否发生变化，以更好地优化网络性能。

公开(公告)号：US12096285B2

公开(公告)日：2024-09-17

申请号：US17555772

申请日：2021-12-20

Applicant: Parallel Wireless, Inc.

Inventor： Prashanth Rao ,  Pratik Mehta ,  Kartik Shashikant Raval ,  Kaitki Agarwal ,  Rajesh Kumar Mishra ,  Sridhar Donepudi ,  Anupam Goyal ,  Yang Cao

IPC: H04W92/04 ,  H04W24/02 ,  H04W36/00 ,  H04W36/14 ,  H04W48/16 ,  H04W92/20 ,  H04W84/18 ,  H04W88/12 ,  H04W88/16

CPC classification number: H04W36/0061 ,  H04W24/02 ,  H04W36/0066 ,  H04W36/14 ,  H04W48/16 ,  H04W36/0055 ,  H04W84/18 ,  H04W88/12 ,  H04W88/16 ,  H04W92/045 ,  H04W92/20

Abstract: A gateway for X2 interface communication is provided, including: an X2 internal interface for communicating with, and coupled to, a plurality of radio access networks (RANs); and an X2 external interface for communicating with, and coupled to, a destination outside of the plurality of RANs, the X2 external interface further including a single X2 endpoint for the plurality of radio access networks, such that the X2 external interface provides a single interface for an external macro cell or core network to interact with the plurality of radio access networks. The gateway may further include a handover module for maintaining X2 signaling associations and transactions for incoming and outbound handovers, including X2 to S1 and S1 to X2 translation.