L3vel, LLC

United States of America

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H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks 15
H04W 16/28 - Cell structures using beam steering 13
H04W 76/15 - Setup of multiple wireless link connections 12
H04W 88/10 - Access point devices adapted for operation in multiple networks, e.g. multi-mode access points 10
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Found results for  patents

1.

Mounting Apparatus for Wireless Communication Equipment

      
Application Number 18772330
Status Pending
Filing Date 2024-07-15
First Publication Date 2025-01-09
Owner L3VEL, LLC (USA)
Inventor Ross, Kevin

Abstract

A wireless communication node of a wireless communication system may include a wireless communication module that is configured to communicate with a satellite (e.g., a low earth orbit satellite) and a mounting unit for mounting the wireless communication module at a ground-based installation site, where the mounting unit is configured to mechanically rotate the wireless communication module in response to receiving a command signal. Further, in at least some implementations, the wireless communication module may have electronic beamsteering capability.

IPC Classes  ?

2.

SYSTEMS AND METHODS FOR PLANNING WIRELESS MESH NETWORKS

      
Application Number 18599822
Status Pending
Filing Date 2024-03-08
First Publication Date 2024-09-12
Owner L3VEL, LLC (USA)
Inventor
  • Andrews, Clinton
  • Barrand, Bryce
  • Carver, Brianna

Abstract

A computing platform is configured to: (i) receive input data defining a geographic area within which to plan a segment of a mesh-based communication system; (ii) identify one or more originating sites within the geographic area; (iii) identify infrastructure sites within the geographic area that are candidates for installation of wireless communication nodes; (iv) obtain data related to the identified infrastructure sites that is to be used for planning; (v) generate a plan for the mesh-based communication system based at least on (a) the identified one or more originating site locations, (b) the identified infrastructure sites within the geographic area that are candidates for installation of wireless communication nodes, (c) the obtained data related to the identified infrastructure sites, and (d) a set of requirements for the plan; and (vi) output the generated plan.

IPC Classes  ?

3.

SYSTEMS AND METHODS FOR BUILDING WIRELESS COMMUNICATION MESH NETWORKS USING POLE STRUCTURES

      
Application Number 18432165
Status Pending
Filing Date 2024-02-05
First Publication Date 2024-09-05
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein are systems and methods relating to wireless communication mesh networks. In one aspect, the disclosed systems and methods may involve (1) a preexisting fiber network associated with a geographical area that includes buildings, where the preexisting fiber network comprises preexisting fiber links, (2) a first fiber link that is spliced into a given one of the preexisting fiber links coupled to the preexisting fiber network at a given location that was identified as being convenient for extending the preexisting fiber network, (3) a second fiber link that is deployed between the given location and a given building that is closest to the given location, where the given building is configured to serve as a seed node of a wireless communication mesh network that has backhaul connectivity through the preexisting fiber network, and (4) one or more point-to-point or point-to-multipoint communication links that originate from the seed node.

IPC Classes  ?

  • H04W 88/10 - Access point devices adapted for operation in multiple networks, e.g. multi-mode access points
  • H04W 84/22 - Self-organising networks, e.g. ad hoc networks or sensor networks with access to wired networks
  • H04W 88/06 - Terminal devices adapted for operation in multiple networks, e.g. multi-mode terminals

4.

Mounting apparatus for wireless communication equipment

      
Application Number 17963076
Grant Number 12040877
Status In Force
Filing Date 2022-10-10
First Publication Date 2024-07-16
Grant Date 2024-07-16
Owner L3VEL, LLC (USA)
Inventor Ross, Kevin

Abstract

A wireless communication node of a wireless communication system may include a wireless communication module that is configured to communicate with a satellite (e.g., a low earth orbit satellite) and a mounting unit for mounting the wireless communication module at a ground-based installation site, where the mounting unit is configured to mechanically rotate the wireless communication module in response to receiving a command signal. Further, in at least some implementations, the wireless communication module may have electronic beamsteering capability.

IPC Classes  ?

5.

SYSTEMS AND METHODS FOR IMPROVING WIRELESS MESH NETWORKS

      
Application Number 18479145
Status Pending
Filing Date 2023-10-02
First Publication Date 2024-03-28
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a wireless mesh network comprised of ultra-high-capacity nodes that are capable of establishing ultra-high-capacity links (e.g., point-to-point or point-to-multipoint bi-directional communication links) using a millimeter wave spectrum, including but not limited to 28 Ghz, 39 Ghz, 37/42 Ghz, 60 Ghz (including V band), or E-band frequencies, as examples. The higher capacity and/or extended range of these ultra-high-capacity nodes/links may be achieved via various advanced signal processing techniques. Further, these ultra-high-capacity nodes/links may be used in conjunction with other types of point-to-point and/or point-to-multipoint links to build a multi-layer wireless mesh network.

IPC Classes  ?

  • H04W 76/15 - Setup of multiple wireless link connections
  • H04W 16/28 - Cell structures using beam steering
  • H04W 24/02 - Arrangements for optimising operational condition
  • H04W 28/02 - Traffic management, e.g. flow control or congestion control
  • H04W 40/04 - Communication route or path selection, e.g. power-based or shortest path routing based on wireless node resources
  • H04W 40/20 - Communication route or path selection, e.g. power-based or shortest path routing based on geographic position or location

6.

Systems and methods for improving wireless mesh networks

      
Application Number 18305407
Grant Number 12144046
Status In Force
Filing Date 2023-04-24
First Publication Date 2024-03-21
Grant Date 2024-11-12
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a first wireless communication node comprising a first communication module that includes a first baseband unit configured to handle baseband processing for the first communication module, a first RF unit configured to define a frequency range of radio signals for the first communication module, and a first antenna unit configured to generate a first extremely-narrow beam that facilitates exchange of radio signals with at least one other wireless communication node. The first wireless communication node may also comprise a second communication module that includes a second baseband unit configured to handle baseband processing for the second communication module, a second RF unit configured to define a frequency range of radio signals for the second communication module, and a second antenna unit configured to generate a second extremely-narrow beam that facilitates exchange of radio signals with at least one other wireless communication node.

IPC Classes  ?

  • H04B 7/0408 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas using two or more beams, i.e. beam diversity
  • H04L 41/14 - Network analysis or design
  • H04W 16/28 - Cell structures using beam steering
  • H04W 72/044 - Wireless resource allocation based on the type of the allocated resource
  • H04W 76/15 - Setup of multiple wireless link connections
  • H04W 84/04 - Large scale networks; Deep hierarchical networks
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks
  • H04W 88/10 - Access point devices adapted for operation in multiple networks, e.g. multi-mode access points
  • H04W 88/14 - Backbone network devices
  • H04W 92/02 - Inter-networking arrangements
  • H04W 92/04 - Interfaces between hierarchically different network devices
  • H04W 92/20 - Interfaces between hierarchically similar devices between access points
  • H04W 92/24 - Interfaces between hierarchically similar devices between backbone network devices

7.

SYSTEMS AND METHODS FOR DESIGNING AND DEPLOYING WIRELESS COMMUNICATION MESH NETWORKS

      
Application Number 18451506
Status Pending
Filing Date 2023-08-17
First Publication Date 2024-02-22
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

A computing platform is configured to: based on fiber access data associated with a coverage area and a first set of line-of-sight (LOS) data associated with the coverage area, identify a plurality of locations for first-tier nodes; and for each respective first-tier node: (i) determine a plurality of geographic areas relative to the respective first-tier node for deploying spine nodes, wherein each determined geographic area is associated with a respective spine extending from the respective first-tier node; (ii) based on a second set of LOS data associated with the coverage area, identify a set of candidate spine node infrastructure sites for spine nodes extending from the respective first-tier node; and (iii) allocate the identified set of candidate spine node infrastructure sites into one or more subsets of infrastructure sites, wherein each subset of infrastructure sites corresponds to a given one of the determined geographic areas.

IPC Classes  ?

  • H04W 16/18 - Network planning tools
  • H04W 64/00 - Locating users or terminals for network management purposes, e.g. mobility management

8.

SYSTEMS AND METHODS FOR DESIGNING AND POWERING WIRELESS COMMUNICATION MESH NETWORK NODES

      
Application Number 18305409
Status Pending
Filing Date 2023-04-24
First Publication Date 2023-12-14
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein are systems and methods related to wireless communication mesh network design, installation, and deployment. In one aspect, a wireless communication node may be located at a building to include one or more antenna mounts, one or more wireless communication radios mounted on the one or more antenna mounts, and a portable power supply coupled to each of the one or more wireless communication radios via a respective cable, where the portable power supply is configured to provide power to each of the one or more wireless communication radios. In another aspect, a wireless communication node located at a building may include a coaxial interface coupled to a power supply installed at the building via a pre-existing cable for a satellite dish, where the coaxial interface may receive power from the power supply via the pre-existing cable and supply the received power to one or more wireless communication radios

IPC Classes  ?

  • H04B 1/40 - Circuits
  • H02S 99/00 - Subject matter not provided for in other groups of this subclass

9.

SOFTWARE TOOLS FOR FACILITATING DEPLOYMENT OF MESH-BASED COMMUNICATION SYSTEMS

      
Application Number 18303895
Status Pending
Filing Date 2023-04-20
First Publication Date 2023-10-26
Owner L3VEL, LLC (USA)
Inventor
  • Barrand, Bryce
  • O'Toole, Chris
  • Andrews, Clinton
  • Zaromskis, Julius
  • Carver, Brianna
  • Dewey, Chad
  • Bledsoe, Hal
  • Naim, Muhammad Ahsan

Abstract

A computing platform is configured to: (i) receive input data identifying (a) planned infrastructure sites at which to install wireless communication nodes for a wireless mesh network, wherein each planned infrastructure site is associated with a respective wireless communication node to be installed at the planned infrastructure site and (b) planned interconnections between the planned infrastructure sites that specify a manner in which the wireless communication nodes of the planned infrastructure sites are to be interconnected together via wireless links; (ii) receive template data for defining a deployment plan for wireless communication nodes and wireless communication links; and (iii) based at least on the input data and the template data, generate a deployment plan for the planned infrastructure sites that comprises, for each planned infrastructure site, a respective set of configuration data for the respective wireless communication node to be installed at the planned infrastructure site.

IPC Classes  ?

10.

Computing Systems and Methods for Managing and Monitoring Mesh-Based Communication Systems

      
Application Number 18304300
Status Pending
Filing Date 2023-04-20
First Publication Date 2023-10-26
Owner L3VEL, LLC (USA)
Inventor
  • Barrand, Bryce
  • O'Toole, Chris
  • Andrews, Clinton
  • Zaromskis, Julius
  • Jarrett, Shane
  • Elliot, Matthew

Abstract

Systems and methods for monitoring and managing mesh-based communication systems include providing an interactive network map of a mesh-based communication system and wireless communication nodes of the mesh-based communication system, facilitating selection of and actioning for one or more of the wireless communication nodes, generating, managing, and visualizing alerts related to operation and performance of the mesh-based communication system, and evaluating operational performance of wireless communication nodes of the mesh-based communication system in order to identify points of failure and determine remedial action.

IPC Classes  ?

11.

COMPUTING SYSTEMS AND METHODS FOR MANAGING AND MONITORING MESH-BASED COMMUNICATION SYSTEMS

      
Application Number 18333367
Status Pending
Filing Date 2023-06-12
First Publication Date 2023-10-26
Owner L3VEL, LLC (USA)
Inventor
  • Barrand, Bryce
  • O'Toole, Chris
  • Andrews, Clinton
  • Zaromskis, Julius
  • Jarrett, Shane
  • Elliot, Matthew

Abstract

Systems and methods for monitoring and managing mesh-based communication systems include providing an interactive network map of a mesh-based communication system and wireless communication nodes of the mesh-based communication system, facilitating selection of and actioning for one or more of the wireless communication nodes, generating, managing, and visualizing alerts related to operation and performance of the mesh-based communication system, and evaluating operational performance of wireless communication nodes of the mesh-based communication system in order to identify points of failure and determine remedial action.

IPC Classes  ?

  • H04L 67/12 - Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks
  • H04W 88/08 - Access point devices

12.

Edge computing platform based on wireless mesh architecture

      
Application Number 18174941
Grant Number 12022325
Status In Force
Filing Date 2023-02-27
First Publication Date 2023-07-06
Grant Date 2024-06-25
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is an architecture for an edge computing platform based on an underlying wireless mesh network. The architecture includes nodes installed with equipment for operating as part of a wireless mesh network, including (1) a first tier of one or more Point of Presence (PoP) node, (2) a second tier of one or more seed nodes that are each directly connected to at least one PoP node via a PoP-to-seed wireless link, and (3) a third tier of one or more anchor nodes that are each connected to at least one seed node either (i) directly via a seed-to-anchor wireless link or (ii) indirectly via one or more intermediate anchor nodes, one or more anchor-to-anchor wireless links, and one seed-to-anchor wireless link, where at least one node in each of these tiers is further installed with equipment for operating as part of an edge computing platform.

IPC Classes  ?

  • H04W 28/08 - Load balancing or load distribution
  • H04W 28/086 - Load balancing or load distribution among access entities
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks

13.

MESH-BASED COMMUNICATION SYSTEM ARCHITECTURES

      
Application Number 18081608
Status Pending
Filing Date 2022-12-14
First Publication Date 2023-04-20
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

A radio module for a wireless communication node in a wireless mesh network includes a reflectarray antenna having a plurality of antenna elements. Each antenna element of the plurality of antenna elements is configured to receive an incident signal, apply one of two phase shifts to the incident signal, and radiate the phase-shifted signal. The radio module further includes a radio frequency (RF) module comprising a single RF chain configured to feed the incident signal to the plurality of antenna elements in the reflectarray antenna, as well as a control unit that is configured to control which of the two phase shifts is applied by each antenna element in the reflectarray antenna.

IPC Classes  ?

  • H04W 76/15 - Setup of multiple wireless link connections
  • H04W 24/02 - Arrangements for optimising operational condition
  • H04W 16/28 - Cell structures using beam steering
  • H04W 40/20 - Communication route or path selection, e.g. power-based or shortest path routing based on geographic position or location
  • H04W 40/04 - Communication route or path selection, e.g. power-based or shortest path routing based on wireless node resources
  • H04W 28/02 - Traffic management, e.g. flow control or congestion control

14.

MESH-BASED COMMUNICATION SYSTEM ARCHITECTURES

      
Application Number 18081610
Status Pending
Filing Date 2022-12-14
First Publication Date 2023-04-20
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

A wireless communication node within a mesh-based communication system includes wireless mesh equipment that is configured to establish and communicate over one or more bidirectional wireless links with one or more other wireless communication nodes of the mesh-based communication system. The wireless communication node further includes a multi-tier storage architecture that is configured to store data at the wireless communication node. The multi-tier storage architecture includes at least (i) a first tier of one or more storage units that is designated for storage of a first class of data, and (ii) a second tier of one or more storage units that is designated for storage of a second class of data that differs from the first class of data.

IPC Classes  ?

  • H04W 76/15 - Setup of multiple wireless link connections
  • H04W 24/02 - Arrangements for optimising operational condition
  • H04W 16/28 - Cell structures using beam steering
  • H04W 40/20 - Communication route or path selection, e.g. power-based or shortest path routing based on geographic position or location
  • H04W 40/04 - Communication route or path selection, e.g. power-based or shortest path routing based on wireless node resources
  • H04W 28/02 - Traffic management, e.g. flow control or congestion control

15.

Network Sensing Within a Wireless Mesh Network

      
Application Number 17963072
Status Pending
Filing Date 2022-10-10
First Publication Date 2023-02-02
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

A given wireless communication node of a wireless mesh network may include at least one processing unit and a plurality of radio modules, where at least one given radio module of the plurality of radio modules is capable of operating in a temporary network-sensing mode in which the given radio module gathers information about any other wireless communication node of the wireless mesh network that is sensed within the given wireless communication node's surrounding area by scanning for radio-frequency signals being emitted by any other radio module within at least a portion of the given wireless communication node's surrounding area while an antenna azimuth of the given radio module is being rotated.

IPC Classes  ?

  • H04W 76/19 - Connection re-establishment
  • H04B 7/10 - Polarisation diversity; Directional diversity

16.

Systems and methods for improving wireless mesh networks

      
Application Number 17694365
Grant Number 11862860
Status In Force
Filing Date 2022-03-14
First Publication Date 2022-09-15
Grant Date 2024-01-02
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

A radio module for a wireless communication node comprises (i) a phased antenna array comprising a first set of antenna elements having a first polarization and a second set of antenna elements having a second polarization, (ii) a radio frequency (RF) module comprising a plurality of RF chains that are configured to feed the first and second sets of antenna elements in the phased antenna array, and (iii) a control unit that is configured to control an activation state of each antenna element in the phased antenna array. The radio module further comprises at least one beam narrowing module that is configured to (i) receive signals emitted by any active antenna element in the phased antenna array and (ii) consolidate the received signals into a respective narrow beam composite signal.

IPC Classes  ?

  • H01Q 21/24 - Combinations of antenna units polarised in different directions for transmitting or receiving circularly and elliptically polarised waves or waves linearly polarised in any direction
  • H01Q 19/02 - Combinations of primary active antenna elements and units with secondary devices, e.g. with quasi-optical devices, for giving the antenna a desired directional characteristic - Details
  • H01Q 3/46 - Active lenses or reflecting arrays

17.

Systems and methods for building wireless mesh networks

      
Application Number 17729953
Grant Number 12132642
Status In Force
Filing Date 2022-04-26
First Publication Date 2022-08-11
Grant Date 2024-10-29
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a system comprising a set of wireless communication nodes that are configured to operate as part of a wireless mesh network. Each respective wireless communication node may be directly coupled to at least one other wireless communication node via a respective short-hop wireless link, and at least a first pair of wireless nodes may be both (a) indirectly coupled to one another via a first communication path that comprises one or more intermediary wireless communication nodes and two or more short-hop wireless links and (b) directly coupled to one another via a first long-hop wireless link that provides a second communication path between the first pair of wireless communication nodes having a lesser number of hops than the first communication path. A fiber access point may be directly coupled to a first wireless communication node of the set of wireless communication nodes.

IPC Classes  ?

  • H04W 16/24 - Cell structures
  • H04B 10/2575 - Radio-over-fibre, e.g. radio frequency signal modulated onto an optical carrier
  • H04L 41/0816 - Configuration setting characterised by the conditions triggering a change of settings the condition being an adaptation, e.g. in response to network events
  • H04L 41/12 - Discovery or management of network topologies
  • H04L 45/122 - Shortest path evaluation by minimising distances, e.g. by selecting a route with minimum of number of hops
  • H04L 45/16 - Multipoint routing
  • H04Q 11/00 - Selecting arrangements for multiplex systems
  • H04W 40/02 - Communication route or path selection, e.g. power-based or shortest path routing
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks

18.

Systems and methods for building wireless mesh networks

      
Application Number 17676626
Grant Number 11683259
Status In Force
Filing Date 2022-02-21
First Publication Date 2022-06-16
Grant Date 2023-06-20
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a system comprising a set of wireless communication nodes that are configured to operate as part of a wireless mesh network. Each respective wireless communication node may be directly coupled to at least one other wireless communication node via a respective short-hop wireless link, and at least a first pair of wireless nodes may be both (a) indirectly coupled to one another via a first communication path that comprises one or more intermediary wireless communication nodes and two or more short-hop wireless links and (b) directly coupled to one another via a first long-hop wireless link that provides a second communication path between the first pair of wireless communication nodes having a lesser number of hops than the first communication path. A fiber access point may be directly coupled to a first wireless communication node of the set of wireless communication nodes.

IPC Classes  ?

  • H04W 16/18 - Network planning tools
  • H04W 16/24 - Cell structures
  • H04L 45/122 - Shortest path evaluation by minimising distances, e.g. by selecting a route with minimum of number of hops
  • H04W 40/02 - Communication route or path selection, e.g. power-based or shortest path routing
  • H04B 10/2575 - Radio-over-fibre, e.g. radio frequency signal modulated onto an optical carrier
  • H04L 45/16 - Multipoint routing
  • H04L 41/12 - Discovery or management of network topologies
  • H04Q 11/00 - Selecting arrangements for multiplex systems
  • H04L 41/0816 - Configuration setting characterised by the conditions triggering a change of settings the condition being an adaptation, e.g. in response to network events
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks

19.

MESH RELAY MODULE

      
Application Number 17526823
Status Pending
Filing Date 2021-11-15
First Publication Date 2022-05-19
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is mesh relay module for relaying signals between nodes in a wireless mesh network. In one implementation, this mesh relay node may include a receiver front end comprising a receiver-side phased antenna array for receiving signals in one respective beam direction, a transmitter front end comprising a transmitter-side phased antenna array for transmitting signals in another respective beam direction, a communication interface, and circuitry that is configured to control the respective beam directions of the receiver and transmitter front ends and transfer signals between the receiver and transmitter front ends. Further, this mesh relay node may function to provide an indirect communication path between nodes within the wireless mesh network by (i) receiving signals from a first direction associated with a first node via the receiver front end and (ii) transmitting received signals in a second direction associated with a second node via the transmitter front end.

IPC Classes  ?

  • H04W 16/28 - Cell structures using beam steering

20.

SYSTEMS AND METHODS FOR IMPROVING WIRELESS MESH NETWORKS

      
Application Number 17590608
Status Pending
Filing Date 2022-02-01
First Publication Date 2022-05-19
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

In a wireless mesh network comprising wireless communication nodes that are interconnected via wireless point-to-point and/or wireless point-to-multipoint links, at least some of the wireless communication nodes may additionally be installed with equipment that enables them to operate as blockchain nodes within a blockchain network, such as a computing system comprising hardware and software for operating as part of the blockchain network. This architecture enables such wireless communication nodes to serve a dual purpose of delivering both mesh-based applications and/or services to users, such as high-speed internet, as well as blockchain-based applications and/or services to users. For example, such wireless communication nodes may function to provide distributed, blockchain-based platforms for content storage (e.g., blockchain-based databases or distributed file storage platforms), content distribution, social media, gaming, and/or virtual experiences, among other possibilities.

IPC Classes  ?

  • H04W 76/15 - Setup of multiple wireless link connections
  • H04W 24/02 - Arrangements for optimising operational condition
  • H04W 16/28 - Cell structures using beam steering
  • H04W 40/20 - Communication route or path selection, e.g. power-based or shortest path routing based on geographic position or location
  • H04W 40/04 - Communication route or path selection, e.g. power-based or shortest path routing based on wireless node resources
  • H04W 28/02 - Traffic management, e.g. flow control or congestion control

21.

Systems and methods for improving wireless mesh networks

      
Application Number 17665790
Grant Number 11778678
Status In Force
Filing Date 2022-02-07
First Publication Date 2022-05-19
Grant Date 2023-10-03
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a wireless mesh network comprised of ultra-high-capacity nodes that are capable of establishing ultra-high-capacity links (e.g., point-to-point or point-to-multipoint bi-directional communication links) using a millimeter wave spectrum, including but not limited to 28 Ghz, 39 Ghz, 37/42 Ghz, 60 Ghz (including V band), or E-band frequencies, as examples. The higher capacity and/or extended range of these ultra-high-capacity nodes/links may be achieved via various advanced signal processing techniques. Further, these ultra-high-capacity nodes/links may be used in conjunction with other types of point-to-point and/or point-to-multipoint links to build a multi-layer wireless mesh network.

IPC Classes  ?

  • H04W 16/28 - Cell structures using beam steering
  • H04W 24/02 - Arrangements for optimising operational condition
  • H04W 28/02 - Traffic management, e.g. flow control or congestion control
  • H04W 40/04 - Communication route or path selection, e.g. power-based or shortest path routing based on wireless node resources
  • H04W 40/20 - Communication route or path selection, e.g. power-based or shortest path routing based on geographic position or location
  • H04W 76/15 - Setup of multiple wireless link connections
  • H04W 84/02 - Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
  • H04W 84/22 - Self-organising networks, e.g. ad hoc networks or sensor networks with access to wired networks
  • H04W 88/10 - Access point devices adapted for operation in multiple networks, e.g. multi-mode access points
  • H04W 88/12 - Access point controller devices
  • H04W 88/14 - Backbone network devices
  • H04W 92/02 - Inter-networking arrangements
  • H04W 92/04 - Interfaces between hierarchically different network devices
  • H04W 92/16 - Interfaces between hierarchically similar devices

22.

Systems and methods for designing and deploying wireless communication mesh networks

      
Application Number 17485043
Grant Number 12118664
Status In Force
Filing Date 2021-09-24
First Publication Date 2022-04-28
Grant Date 2024-10-15
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein are systems and methods that relate to wireless communication mesh network design and operation. In one aspect, the disclosed process may involve (1) obtaining potential-customer information related to a set of potential customers for a service to be provided through a wireless communication mesh network in an AOI, where the potential-customer information comprises both (i) information related to potential customers that are identified during a pre-marketing phase and (ii) information related to potential customers that are identified during a door-to-door marketing phase, and where the set of potential customers have a corresponding set of customer locations in the AOI, (2) evaluating the obtained potential-customer information and thereby identifying a subset of customer locations at which to deploy the wireless communication mesh network, and (3) generating and outputting information that facilitates deployment of the wireless communication mesh network at the identified subset of customer locations in the AOI.

IPC Classes  ?

  • G06T 17/05 - Geographic models
  • G06T 17/00 - 3D modelling for computer graphics
  • G06V 10/25 - Determination of region of interest [ROI] or a volume of interest [VOI]
  • G06V 10/26 - Segmentation of patterns in the image field; Cutting or merging of image elements to establish the pattern region, e.g. clustering-based techniques; Detection of occlusion
  • H04W 16/20 - Network planning tools for indoor coverage or short range network deployment

23.

Systems and methods for improving wireless mesh network resilience

      
Application Number 16683175
Grant Number 11317459
Status In Force
Filing Date 2019-11-13
First Publication Date 2022-04-26
Grant Date 2022-04-26
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a wireless communication node that includes (1) at least one small cell sub-node that is configured to communicate with multiple CPE sub-nodes outside of the wireless communication node via multiple first wide-beam-width communication links and (2) at least one CPE sub-node that is configured to communicate with one small cell sub-node outside of the wireless communication node via a second wide-beam-width communication link, where the at least one small cell sub-node and the at least one CPE communication sub-node are housed within a single enclosure. In some implementations, the wireless communication node may also support multiple carriers operating at different frequencies.

IPC Classes  ?

  • H04W 76/16 - Setup of multiple wireless link connections involving different core network technologies, e.g. a packet-switched [PS] bearer in combination with a circuit-switched [CS] bearer
  • H04W 84/10 - Small scale networks; Flat hierarchical networks
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks
  • H04W 24/04 - Arrangements for maintaining operational condition
  • H04B 7/06 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station
  • H04W 76/14 - Direct-mode setup
  • H04W 76/18 - Management of setup rejection or failure
  • H04W 88/04 - Terminal devices adapted for relaying to or from another terminal or user
  • H04W 16/14 - Spectrum sharing arrangements
  • H04W 72/04 - Wireless resource allocation

24.

Edge computing platform based on wireless mesh architecture

      
Application Number 17506594
Grant Number 11595850
Status In Force
Filing Date 2021-10-20
First Publication Date 2022-04-21
Grant Date 2023-02-28
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is an architecture for an edge computing platform based on an underlying wireless mesh network. The architecture includes nodes installed with equipment for operating as part of a wireless mesh network, including (1) a first tier of one or more Point of Presence (PoP) node, (2) a second tier of one or more seed nodes that are each directly connected to at least one PoP node via a PoP-to-seed wireless link, and (3) a third tier of one or more anchor nodes that are each connected to at least one seed node either (i) directly via a seed-to-anchor wireless link or (ii) indirectly via one or more intermediate anchor nodes, one or more anchor-to-anchor wireless links, and one seed-to-anchor wireless link, where at least one node in each of these tiers is further installed with equipment for operating as part of an edge computing platform.

IPC Classes  ?

  • H04W 28/08 - Load balancing or load distribution

25.

Systems and methods for building and funding communication networks

      
Application Number 16660532
Grant Number 11172374
Status In Force
Filing Date 2019-10-22
First Publication Date 2021-11-09
Grant Date 2021-11-09
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a next generation communication system comprising a set of network nodes that are interconnected into a wireless mesh network, where a subset of the network nodes in the set are further coupled to a blockchain network that is configured to provide blockchain-based services, such as blockchain-based distributed data storage or a service for blockchain-based digital cryptocurrency mining.

IPC Classes  ?

  • H04W 16/18 - Network planning tools
  • H04L 29/08 - Transmission control procedure, e.g. data link level control procedure
  • G06Q 20/36 - Payment architectures, schemes or protocols characterised by the use of specific devices using electronic wallets or electronic money safes
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks

26.

Mounting apparatus for wireless communication equipment

      
Application Number 17242148
Grant Number 11637616
Status In Force
Filing Date 2021-04-27
First Publication Date 2021-10-28
Grant Date 2023-04-25
Owner L3VEL, LLC (USA)
Inventor Ross, Kevin

Abstract

An example mounting apparatus for a wireless communication node may comprise: a first weighting-element enclosure having a first set of connectors that extend from the first weighting-element enclosure; a second weighting-element enclosure having a second set of connectors that extend from the second weighting-element enclosure, and wherein the first weighting-element enclosure is connected to the second weighting-element enclosure via two joints that are disposed between the first set of connectors and the second set of connectors; a post that is affixed to either the first weighting-element enclosure or the second weighting-element enclosure; one or more communication-equipment enclosures that are each attached to the post and are each adapted to house respective equipment for the wireless communication node; and at least a first support strut that is connected between the post and a first one of the two joints disposed between the first weighting-element enclosure and the second weighting-element enclosure.

IPC Classes  ?

27.

Systems and methods for improving wireless mesh networks

      
Application Number 17345914
Grant Number 11246180
Status In Force
Filing Date 2021-06-11
First Publication Date 2021-10-21
Grant Date 2022-02-08
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a wireless mesh network comprised of ultra-high-capacity nodes that are capable of establishing ultra-high-capacity links (e.g., point-to-point or point-to-multipoint bi-directional communication links) using a millimeter wave spectrum, including but not limited to 28 Ghz, 39 Ghz, 37/42 Ghz, 60 Ghz (including V band), or E-band frequencies, as examples. The higher capacity and/or extended range of these ultra-high-capacity nodes/links may be achieved via various advanced signal processing techniques. Further, these ultra-high-capacity nodes/links may be used in conjunction with other types of point-to-point and/or point-to-multipoint links to build a multi-layer wireless mesh network.

IPC Classes  ?

  • H04W 16/28 - Cell structures using beam steering
  • H04W 24/02 - Arrangements for optimising operational condition
  • H04W 28/02 - Traffic management, e.g. flow control or congestion control
  • H04W 40/04 - Communication route or path selection, e.g. power-based or shortest path routing based on wireless node resources
  • H04W 40/20 - Communication route or path selection, e.g. power-based or shortest path routing based on geographic position or location
  • H04W 76/15 - Setup of multiple wireless link connections
  • H04W 84/02 - Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
  • H04W 84/22 - Self-organising networks, e.g. ad hoc networks or sensor networks with access to wired networks
  • H04W 88/10 - Access point devices adapted for operation in multiple networks, e.g. multi-mode access points
  • H04W 88/12 - Access point controller devices
  • H04W 88/14 - Backbone network devices
  • H04W 92/02 - Inter-networking arrangements
  • H04W 92/04 - Interfaces between hierarchically different network devices
  • H04W 92/16 - Interfaces between hierarchically similar devices

28.

Systems and methods for building wireless mesh networks

      
Application Number 17355445
Grant Number 11258697
Status In Force
Filing Date 2021-06-23
First Publication Date 2021-10-14
Grant Date 2022-02-22
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a system comprising a set of wireless communication nodes that are configured to operate as part of a wireless mesh network. Each respective wireless communication node may be directly coupled to at least one other wireless communication node via a respective short-hop wireless link, and at least a first pair of wireless nodes may be both (a) indirectly coupled to one another via a first communication path that comprises one or more intermediary wireless communication nodes and two or more short-hop wireless links and (b) directly coupled to one another via a first long-hop wireless link that provides a second communication path between the first pair of wireless communication nodes having a lesser number of hops than the first communication path. A fiber access point may be directly coupled to a first wireless communication node of the set of wireless communication nodes.

IPC Classes  ?

  • H04W 16/18 - Network planning tools
  • H04W 16/24 - Cell structures
  • H04L 45/122 - Shortest path evaluation by minimising distances, e.g. by selecting a route with minimum of number of hops
  • H04W 40/02 - Communication route or path selection, e.g. power-based or shortest path routing
  • H04B 10/2575 - Radio-over-fibre, e.g. radio frequency signal modulated onto an optical carrier
  • H04L 45/16 - Multipoint routing
  • H04L 41/12 - Discovery or management of network topologies
  • H04Q 11/00 - Selecting arrangements for multiplex systems
  • H04L 41/0816 - Configuration setting characterised by the conditions triggering a change of settings the condition being an adaptation, e.g. in response to network events
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks

29.

Systems and methods for improving wireless network coverage

      
Application Number 16746612
Grant Number 11109241
Status In Force
Filing Date 2020-01-17
First Publication Date 2021-08-31
Grant Date 2021-08-31
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein are improved communication systems and methods for operating in a lightly-licensed, shared frequency spectrum. In one aspect, the disclosed systems and methods may involve a small cell having a coverage area and comprising a radio frequency integrated circuit (RFIC), a switch, an antenna, a power amplifier, and a low noise amplifier (LNA). A receiver RF chain of the small cell may be defined by an interconnection between the antenna, the switch, the LNA, and the RFIC, and a transmitter RF chain of the small cell may be defined by an interconnection between the RFIC, the power amplifier, the switch, and the antenna. In accordance with the present disclosure, the LNA may be configured with at least one parameter that is defined based on an uplink link-budget deficiency associated with a client terminal having a given power class and located at a given location of the coverage area.

IPC Classes  ?

  • H04B 1/44 - Transmit/receive switching
  • H04W 16/14 - Spectrum sharing arrangements
  • H04W 68/02 - Arrangements for increasing efficiency of notification or paging channel
  • H03F 3/195 - High-frequency amplifiers, e.g. radio frequency amplifiers with semiconductor devices only in integrated circuits
  • H03F 3/21 - Power amplifiers, e.g. Class B amplifiers, Class C amplifiers with semiconductor devices only
  • H04W 72/12 - Wireless traffic scheduling
  • H04W 16/18 - Network planning tools
  • H04W 28/24 - Negotiating SLA [Service Level Agreement]; Negotiating QoS [Quality of Service]

30.

Systems and methods for improving wireless mesh networks

      
Application Number 17235547
Grant Number 11129222
Status In Force
Filing Date 2021-04-20
First Publication Date 2021-08-05
Grant Date 2021-09-21
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a first wireless communication node comprising a first communication module that includes a first baseband unit configured to handle baseband processing for the first communication module, a first RF unit configured to define a frequency range of radio signals for the first communication module, and a first antenna unit configured to generate a first extremely-narrow beam that facilitates exchange of radio signals with at least one other wireless communication node. The first wireless communication node may also comprise a second communication module that includes a second baseband unit configured to handle baseband processing for the second communication module, a second RF unit configured to define a frequency range of radio signals for the second communication module, and a second antenna unit configured to generate a second extremely-narrow beam that facilitates exchange of radio signals with at least one other wireless communication node.

IPC Classes  ?

  • H04B 7/0408 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas using two or more beams, i.e. beam diversity
  • H04L 12/24 - Arrangements for maintenance or administration
  • H04W 16/28 - Cell structures using beam steering
  • H04W 72/04 - Wireless resource allocation
  • H04W 76/15 - Setup of multiple wireless link connections
  • H04W 84/04 - Large scale networks; Deep hierarchical networks
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks
  • H04W 88/10 - Access point devices adapted for operation in multiple networks, e.g. multi-mode access points
  • H04W 88/14 - Backbone network devices
  • H04W 92/02 - Inter-networking arrangements
  • H04W 92/04 - Interfaces between hierarchically different network devices
  • H04W 92/20 - Interfaces between hierarchically similar devices between access points
  • H04W 92/24 - Interfaces between hierarchically similar devices between backbone network devices

31.

Systems and methods for building wireless mesh networks

      
Application Number 17201857
Grant Number 11431612
Status In Force
Filing Date 2021-03-15
First Publication Date 2021-07-01
Grant Date 2022-08-30
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a system comprising a set of wireless communication nodes that are configured to operate as part of a wireless mesh network. Each respective wireless communication node may be directly coupled to at least one other wireless communication node via a respective short-hop wireless link, and at least a first pair of wireless nodes may be both (a) indirectly coupled to one another via a first communication path that comprises one or more intermediary wireless communication nodes and two or more short-hop wireless links and (b) directly coupled to one another via a first long-hop wireless link that provides a second communication path between the first pair of wireless communication nodes having a lesser number of hops than the first communication path. A fiber access point may be directly coupled to a first wireless communication node of the set of wireless communication nodes.

IPC Classes  ?

  • H04W 40/02 - Communication route or path selection, e.g. power-based or shortest path routing
  • H04L 45/122 - Shortest path evaluation by minimising distances, e.g. by selecting a route with minimum of number of hops
  • H04B 10/2575 - Radio-over-fibre, e.g. radio frequency signal modulated onto an optical carrier
  • H04L 45/16 - Multipoint routing
  • H04L 41/12 - Discovery or management of network topologies
  • H04Q 11/00 - Selecting arrangements for multiplex systems
  • H04L 41/0816 - Configuration setting characterised by the conditions triggering a change of settings the condition being an adaptation, e.g. in response to network events
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks

32.

Systems and methods for improving wireless mesh networks

      
Application Number 17164393
Grant Number 11638318
Status In Force
Filing Date 2021-02-01
First Publication Date 2021-05-27
Grant Date 2023-04-25
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a first wireless communication node comprising a first communication module that includes a first baseband unit configured to handle baseband processing for the first communication module, a first RF unit configured to define a frequency range of radio signals for the first communication module, and a first antenna unit configured to generate a first extremely-narrow beam that facilitates exchange of radio signals with at least one other wireless communication node. The first wireless communication node may also comprise a second communication module that includes a second baseband unit configured to handle baseband processing for the second communication module, a second RF unit configured to define a frequency range of radio signals for the second communication module, and a second antenna unit configured to generate a second extremely-narrow beam that facilitates exchange of radio signals with at least one other wireless communication node.

IPC Classes  ?

  • H04B 7/0408 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas using two or more beams, i.e. beam diversity
  • H04L 41/14 - Network analysis or design
  • H04W 16/28 - Cell structures using beam steering
  • H04W 72/04 - Wireless resource allocation
  • H04W 76/15 - Setup of multiple wireless link connections
  • H04W 84/04 - Large scale networks; Deep hierarchical networks
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks
  • H04W 88/10 - Access point devices adapted for operation in multiple networks, e.g. multi-mode access points
  • H04W 88/14 - Backbone network devices
  • H04W 92/02 - Inter-networking arrangements
  • H04W 92/04 - Interfaces between hierarchically different network devices
  • H04W 92/20 - Interfaces between hierarchically similar devices between access points
  • H04W 92/24 - Interfaces between hierarchically similar devices between backbone network devices
  • H04W 72/044 - Wireless resource allocation based on the type of the allocated resource

33.

Systems and methods for designing and powering wireless communication mesh network nodes

      
Application Number 16931742
Grant Number 11637580
Status In Force
Filing Date 2020-07-17
First Publication Date 2021-01-21
Grant Date 2023-04-25
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein are systems and methods related to wireless communication mesh network design, installation, and deployment. In one aspect, a wireless communication node may be located at a building to include one or more antenna mounts, one or more wireless communication radios mounted on the one or more antenna mounts, and a portable power supply coupled to each of the one or more wireless communication radios via a respective cable, where the portable power supply is configured to provide power to each of the one or more wireless communication radios. In another aspect, a wireless communication node located at a building may include a coaxial interface coupled to a power supply installed at the building via a pre-existing cable for a satellite dish, where the coaxial interface may receive power from the power supply via the pre-existing cable and supply the received power to one or more wireless communication radios.

IPC Classes  ?

  • H04L 45/16 - Multipoint routing
  • H04B 1/40 - Circuits
  • H02S 99/00 - Subject matter not provided for in other groups of this subclass
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks

34.

Systems and methods for building wireless communication mesh networks using pole structures

      
Application Number 16838365
Grant Number 11895739
Status In Force
Filing Date 2020-04-02
First Publication Date 2020-10-08
Grant Date 2024-02-06
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein are systems and methods relating to wireless communication mesh networks. In one aspect, the disclosed systems and methods may involve (1) a preexisting fiber network associated with a geographical area that includes buildings, where the preexisting fiber network comprises preexisting fiber links, (2) a first fiber link that is spliced into a given one of the preexisting fiber links coupled to the preexisting fiber network at a given location that was identified as being convenient for extending the preexisting fiber network, (3) a second fiber link that is deployed between the given location and a given building that is closest to the given location, where the given building is configured to serve as a seed node of a wireless communication mesh network that has backhaul connectivity through the preexisting fiber network, and (4) one or more point-to-point or point-to-multipoint communication links that originate from the seed node.

IPC Classes  ?

  • H04W 88/10 - Access point devices adapted for operation in multiple networks, e.g. multi-mode access points
  • H04W 84/22 - Self-organising networks, e.g. ad hoc networks or sensor networks with access to wired networks
  • H04W 88/06 - Terminal devices adapted for operation in multiple networks, e.g. multi-mode terminals

35.

Systems and methods for improving wireless mesh networks

      
Application Number 16680457
Grant Number 11044617
Status In Force
Filing Date 2019-11-11
First Publication Date 2020-06-11
Grant Date 2021-06-22
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a wireless mesh network comprised of ultra-high-capacity nodes that are capable of establishing ultra-high-capacity links (e.g., point-to-point or point-to-multipoint bi-directional communication links) using a millimeter wave spectrum, including but not limited to 28 Ghz, 39 Ghz, 37/42 Ghz, 60 Ghz (including V band), or E-band frequencies, as examples. The higher capacity and/or extended range of these ultra-high-capacity nodes/links may be achieved via various advanced signal processing techniques. Further, these ultra-high-capacity nodes/links may be used in conjunction with other types of point-to-point and/or point-to-multipoint links to build a multi-layer wireless mesh network.

IPC Classes  ?

  • H04W 16/28 - Cell structures using beam steering
  • H04W 24/02 - Arrangements for optimising operational condition
  • H04W 28/02 - Traffic management, e.g. flow control or congestion control
  • H04W 40/04 - Communication route or path selection, e.g. power-based or shortest path routing based on wireless node resources
  • H04W 40/20 - Communication route or path selection, e.g. power-based or shortest path routing based on geographic position or location
  • H04W 76/15 - Setup of multiple wireless link connections
  • H04W 84/02 - Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
  • H04W 84/22 - Self-organising networks, e.g. ad hoc networks or sensor networks with access to wired networks
  • H04W 88/10 - Access point devices adapted for operation in multiple networks, e.g. multi-mode access points
  • H04W 88/12 - Access point controller devices
  • H04W 88/14 - Backbone network devices
  • H04W 92/02 - Inter-networking arrangements
  • H04W 92/04 - Interfaces between hierarchically different network devices
  • H04W 92/16 - Interfaces between hierarchically similar devices

36.

Systems and methods for building wireless mesh networks

      
Application Number 16563564
Grant Number 10951513
Status In Force
Filing Date 2019-09-06
First Publication Date 2020-03-12
Grant Date 2021-03-16
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a system comprising a set of wireless communication nodes that are configured to operate as part of a wireless mesh network. Each respective wireless communication node may be directly coupled to at least one other wireless communication node via a respective short-hop wireless link, and at least a first pair of wireless nodes may be both (a) indirectly coupled to one another via a first communication path that comprises one or more intermediary wireless communication nodes and two or more short-hop wireless links and (b) directly coupled to one another via a first long-hop wireless link that provides a second communication path between the first pair of wireless communication nodes having a lesser number of hops than the first communication path. A fiber access point may be directly coupled to a first wireless communication node of the set of wireless communication nodes.

IPC Classes  ?

  • H04W 40/00 - Communication routing or communication path finding
  • H04L 12/733 - Selecting a path with minimum length or minimum hop count
  • H04W 40/02 - Communication route or path selection, e.g. power-based or shortest path routing
  • H04B 10/2575 - Radio-over-fibre, e.g. radio frequency signal modulated onto an optical carrier
  • H04L 12/761 - Broadcast or multicast routing
  • H04L 12/24 - Arrangements for maintenance or administration
  • H04Q 11/00 - Selecting arrangements for multiplex systems
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks

37.

Systems and methods for improving wireless mesh networks

      
Application Number 16590217
Grant Number 11102834
Status In Force
Filing Date 2019-10-01
First Publication Date 2020-01-30
Grant Date 2021-08-24
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a system comprising a first backhaul node, a second backhaul node, and multiple sites that each comprise a respective node configured to maintain a first communication link with the first backhaul node and a second communication link with the second backhaul node, operate in a first mode in which the respective node engages in communication with the first backhaul node over the first communication link and does not engage in communication with the second backhaul node over the second communication link, detect a triggering event associated with the first communication link, and in response to detecting the triggering event, dynamically switch from operating in the first mode to operating in a second mode in which the respective node engages in communication with the second backhaul node over the second communication link and does not engage in communication with the first backhaul node over the first communication link.

IPC Classes  ?

  • H04B 7/0408 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas using two or more beams, i.e. beam diversity
  • H04B 7/155 - Ground-based stations
  • H04W 16/28 - Cell structures using beam steering
  • H04W 24/02 - Arrangements for optimising operational condition
  • H04W 24/04 - Arrangements for maintaining operational condition
  • H04W 72/04 - Wireless resource allocation
  • H04W 76/15 - Setup of multiple wireless link connections
  • H04W 84/04 - Large scale networks; Deep hierarchical networks
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks
  • H04W 88/10 - Access point devices adapted for operation in multiple networks, e.g. multi-mode access points
  • H04W 88/14 - Backbone network devices
  • H04W 92/02 - Inter-networking arrangements
  • H04W 92/04 - Interfaces between hierarchically different network devices
  • H04W 92/20 - Interfaces between hierarchically similar devices between access points
  • H04W 92/24 - Interfaces between hierarchically similar devices between backbone network devices

38.

Systems and methods for improving wireless mesh networks

      
Application Number 16508289
Grant Number 10966266
Status In Force
Filing Date 2019-07-10
First Publication Date 2020-01-16
Grant Date 2021-03-30
Owner L3VEL, LLC (USA)
Inventor
  • Ross, Kevin
  • Naim, Muhammad Ahsan

Abstract

Disclosed herein is a first wireless communication node comprising a first communication module that includes a first baseband unit configured to handle baseband processing for the first communication module, a first RF unit configured to define a frequency range of radio signals for the first communication module, and a first antenna unit configured to generate a first extremely-narrow beam that facilitates exchange of radio signals with at least one other wireless communication node. The first wireless communication node may also comprise a second communication module that includes a second baseband unit configured to handle baseband processing for the second communication module, a second RF unit configured to define a frequency range of radio signals for the second communication module, and a second antenna unit configured to generate a second extremely-narrow beam that facilitates exchange of radio signals with at least one other wireless communication node.

IPC Classes  ?

  • H04B 7/0408 - Diversity systems; Multi-antenna systems, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas using two or more beams, i.e. beam diversity
  • H04L 12/24 - Arrangements for maintenance or administration
  • H04W 16/28 - Cell structures using beam steering
  • H04W 72/04 - Wireless resource allocation
  • H04W 76/15 - Setup of multiple wireless link connections
  • H04W 84/04 - Large scale networks; Deep hierarchical networks
  • H04W 84/18 - Self-organising networks, e.g. ad hoc networks or sensor networks
  • H04W 88/10 - Access point devices adapted for operation in multiple networks, e.g. multi-mode access points
  • H04W 88/14 - Backbone network devices
  • H04W 92/02 - Inter-networking arrangements
  • H04W 92/04 - Interfaces between hierarchically different network devices
  • H04W 92/20 - Interfaces between hierarchically similar devices between access points
  • H04W 92/24 - Interfaces between hierarchically similar devices between backbone network devices