Tarana Wireless has a total of 29 patents globally, out of which 22 have been granted. Of these 29 patents, more than 96% patents are active. The United States of America is where Tarana Wireless has filed the maximum number of patents, followed by Europe and Germany. Parallelly, United States of America seems to be the main focused R&D centre and also is the origin country of Tarana Wireless.
Tarana Wireless was founded in 2009 by Dale Branlund, Kevin Jones, Omar Bakr, Rabin Patra and Sergiu Nedevschi. Tarana Wireless, Inc. provides wireless telecommunication services. The Company offers a platform (G1) which leverages multidimensional optimization of radio signals to deliver fibre-class Internet services. Tarana Wireless serves customers in the United States.
Do read about some of the most popular patents of Tarana Wireless which have been covered by us in this article and also you can find Tarana Wireless patents information, the worldwide patent filing activity and its patent filing trend over the years, and many other stats over Tarana Wireless patent portfolio.
How many patents does the Founder and CEO of Tarana Wireless have?
The founder Dale Branlund has 44, Omar Bakr has 22 patents, Rabin Patra has 0 patents and Sergiu Nedevschi has 1 patent, and CEO Basil Alwan has 0 patents.
How many patents does Tarana Wireless have?
Tarana Wireless has a total of 29 patents globally. These patents belong to 13 unique patent families. Out of 29 patents, 28 patents are active.
How Many Patents did Tarana Wireless File Every Year?
Are you wondering why there is a drop in patent filing for the last two years? It is because a patent application can take up to 18 months to get published. Certainly, it doesn’t suggest a decrease in the patent filing.
|Year of Patents Filing or Grant||Tarana Wireless Applications Filed||Tarana Wireless Patents Granted|
How many Tarana Wireless patents are Alive/Dead?
How Many Patents did Tarana Wireless File in Different Countries?
Countries in which Tarana Wireless Filed Patents
|United States of America||24|
Where are Research Centers of Tarana Wireless Patents Located?
10 Best Tarana Wireless
US20170221336A1 is the most popular patent in the Tarana Wireless. It has received 34 citations so far from companies like Facebook, IBM, Ellipsis Health.
Below is the list of 10 most cited patents of Tarana Wireless:
|Publication Number||Citation count|
What Percentage of Tarana Wireless US Patent Applications were Granted?
Tarana Wireless (Excluding its subsidiaries) has filed 30 patent applications at USPTO so far (Excluding Design and PCT applications). Out of these 22 have been granted leading to a grant rate of 95.65%.
Below are the key stats of Tarana Wireless patent prosecution at the USPTO.
Which Law Firms Filed Most US Patents for Tarana Wireless?
|Law Firm||Total Applications||Success Rate|
|Haverstock & Owens||11||100%|
List of Tarana Wireless Patents –
|US11425788B2||Distributed Capacity Base Station Architecture For Broadband Access With Enhanced In-Band Gps Co-Existence|
|US11329707B1||Communication Systems, Devices, And Methods For Multicarrier Frequency Division Duplexing|
|US11184067B1||Systems And Methods For Calculating Frequency-Localized Adaptive Beamformer Weights Using Recursively Weighted Updating Across Subcarriers|
|US11165620B1||Systems And Methods For Wireless Network Discovery And Synchronization Using Spatial Whiteners, Matched Filters, And Adaptive Beamformers To Identify Reference Signal Waveforms|
|US11133850B1||Systems And Methods For Calculating Frequency-Localized Adaptive Beamformer Weights Using Weighted Overlapping Beamform And Add Techniques Applied To Adjacent Subbands|
|US11115111B1||System Architecture And Method For High Mobility Networking Including Air Based Nodes And Computing Devices|
|US11108451B1||Systems And Methods For Calculating Frequency-Localized Adaptive Beamformer Weights Using Sliding Windows Across Subcarriers|
|US11057249B1||Frame Structures, Transmitters, And Receivers Utilizing Dual Subcarriers For Signal Adjustment|
|US11032023B1||Methods For Creating Check Codes, And Systems For Wireless Communication Using Check Codes|
|US11025394B1||System Architecture For Optimizing The Capacity Of Adaptive Array Systems|
|US10931362B1||Interference Resistant Method For In-Situ Operational Calibration And Compensation Of Gain And Phase Variations In Antenna Array Receiver Rf And Analog Front-End Electronics|
|US10778308B1||Systems And Methods For Calculating Frequency-Localized Adaptive Beamformer Weights Using Weighted Overlapping Beamform And Add Techniques Applied To Adjacent Subbands|
|US10756939B1||Systems And Methods For Wireless Network Discovery And Synchronization Using Spatial Whiteners, Matched Filters, And Adaptive Beamformers To Identify Reference Signal Waveforms|
|US10499456B1||Distributed Capacity Base Station Architecture For Broadband Access With Enhanced In-Band Gps Co-Existence|
|US10432275B2||Non-Line Of Sight Wireless Communication System And Method|
|US10348394B1||System Architecture And Method For Enhancing Wireless Networks With Mini-Satellites And Pseudollites And Adaptive Antenna Processing|
|US10110270B2||Precision Array Processing Using Semi-Coherent Transceivers|
|US9735940B1||System Architecture For Optimizing The Capacity Of Adaptive Array Systems|
|US9456354B2||Non-Line Of Sight Wireless Communication System And Method|
|US9252908B1||Non-Line Of Sight Wireless Communication System And Method|
|US20220029697A1||System Architecture And Method For Duplexing With High Mobility Networks Including Air Based Nodes And Computing Devices|
|US20200106499A1||Non-Line Of Sight Wireless Communication System And Method|
|US20190068235A1||Precision Array Processing Using Semi-Coherent Transceivers|
|US20160134337A1||Non-Line Of Sight Wireless Communication System And Method|
|EP2974074B1||Precision Array Processing Using Semi-Coherent Transceivers|
|EP3200357A1||Non-Line Of Sight Wireless Communication System And Method|
|WO2014151933A3||Precision Array Processing Using Semi-Coherent Transceivers|
|HK1242059A||Non-Line Of Sight Wireless Communication System And Method|
|DE602014034714T2||Precision Array Processing With Semi-Coherent Recipients|