FreshPatents.com Logo


new TOP 200 Companies filing patents this week

new Companies with the Most Patent Filings (2010+)


Popular
Companies


Web
Adobe patents
Amazon patents
Apple patents
Ebay patents
Facebook patents
Google patents
IBM patents
Linkedin patents
Microsoft patents
Oracle patents
Red Hat patents
Yahoo patents

Food/Health
Adidas
Nike patents
Pfizer patents
Monsanto patents
Medtronic patents
Kraft patents

Transportation
Boeing patents
Tesla Motors patents

Telecom
Qualcomm patents
Motorola patents
Nokia patents
RIMM patents

Industrial/Electronics
AMD
Applied Materials
Seagate patents
General Electric
Caterpillar patents
Samsung
Wal-mart patents

Magnacom Ltd patents


      
Recent patent applications related to Magnacom Ltd. Magnacom Ltd is listed as an Agent/Assignee. Note: Magnacom Ltd may have other listings under different names/spellings. We're not affiliated with Magnacom Ltd, we're just tracking patents.

ARCHIVE: New 2015 2014 2013 2012 2011 2010 2009 | Company Directory "M" | Magnacom Ltd-related inventors


Decision feedback equalizer utilizing symbol error rate biased adaptation function for highly spectrally efficient…

Magnacom

Decision feedback equalizer utilizing symbol error rate biased adaptation function for highly spectrally efficient…

Hypotheses generation based on multidimensional slicing

Magnacom

Hypotheses generation based on multidimensional slicing

Reception of inter-symbol-correlated signals using symbol-by-symbol soft-output demodulator

Magnacom

Reception of inter-symbol-correlated signals using symbol-by-symbol soft-output demodulator

Search recent Press Releases: Magnacom Ltd-related press releases
Count Application # Date Magnacom Ltd patents (updated weekly) - BOOKMARK this page
12015013170905/14/15Fine phase estimation for highly spectrally efficient communications
22015013171005/14/15Decision feedback equalizer utilizing symbol error rate biased adaptation function for highly spectrally efficient communications
32015013175905/14/15Hypotheses generation based on multidimensional slicing
42015012491205/07/15Reception of inter-symbol-correlated signals using symbol-by-symbol soft-output demodulator
52015007849103/19/15Highly-spectrally-efficient ofdm receiver
62015007008903/12/15Adaptive nonlinear model learning
72015007138903/12/15Multi-mode receiver for highly-spectrally-efficient communications
82015006349903/05/15Timing pilot generation for highly-spectrally-efficient communications
92015005572202/26/15Adaptive non-linear model for highly-spectrally-efficient communications
102015004984302/19/15Combined transmission precompensation and receiver nonlinearity mitigation
112015004368402/12/15Hypotheses generation based on multidimensional slicing
122015001010801/08/15Highly-spectrally-efficient transmission using orthogonal frequency division multiplexing
132014032842811/06/14Multi-mode transmitter for highly-spectrally-efficient communications
142014032152510/30/14Highly-spectrally-efficient reception using orthogonal frequency division multiplexing
152014030150710/09/14Highly-spectrally-efficient receiver
162014028645909/25/14Multi-mode orthogonal frequency division multiplexing receiver for highly-spectrally-efficient communications
172014026986109/18/14Constellation map optimization for highly spectrally efficient communications
182014024790409/04/14Pilot symbol generation for highly-spectrally-efficient communications
192014024147708/28/14Decision feedback equalizer for highly spectrally efficient communications
202014023368308/21/14Reduced state sequence estimation with soft decision outputs
212014016115806/12/14Joint sequence estimation of symbol and phase with high tolerance of nonlinearity
222014016117006/12/14Feed forward equalization for highly-spectrally-efficient communications
232014014691105/29/14Dynamic filter adjustment for highly-spectrally-efficient communications
242014014038805/22/14Forward error correction with parity check encoding for use in low complexity highly-spectrally efficient communications
252014014044605/22/14Method and system for corrupt symbol handling for providing high reliability sequences
262014013354005/15/14Low-complexity, highly-spectrally-efficient communications
272014013360805/15/14Hypotheses generation based on multidimensional slicing
282014010526704/17/14Signal reception using non-linearity-compensated, partial response feedback
292014010526804/17/14Decision feedback equalizer utilizing symbol error rate biased adaptation function for highly spectrally efficient communications
302014010533204/17/14Timing synchronization for reception of highly-spectrally-efficient communications
312014010533404/17/14Fine phase estimation for highly spectrally efficient communications
322014010889204/17/14Method and system for forward error correction decoding with parity check for use in low complexity highly-spectrally efficient communications
332014009890704/10/14Timing pilot generation for highly-spectrally-efficient communications
342014009891504/10/14Adaptive non-linear model for highly-spectrally-efficient communications
352014003698602/06/14Coarse phase estimation for highly-spectrally-efficient communications
362014000348301/02/14Highly-spectrally-efficient receiver
372013034347612/26/13Joint sequence estimation of symbol and phase with high tolerance of nonlinearity
382013034348512/26/13Multi-mode transmitter for highly-spectrally-efficient communications
392013034348712/26/13Multi-mode receiver for highly-spectrally-efficient communications



ARCHIVE: New 2015 2014 2013 2012 2011 2010 2009



###

This listing is an abstract for educational and research purposes is only meant as a recent sample of applications filed, not a comprehensive history. Freshpatents.com is not affiliated or associated with Magnacom Ltd in any way and there may be associated servicemarks. This data is also published to the public by the USPTO and available for free on their website. Note that there may be alternative spellings for Magnacom Ltd with additional patents listed. Browse our Agent directory for other possible listings. Page by FreshPatents.com

###

     SHARE