Project Jengo

Founded in 2017 to fight back against patent trolls and level the playing field for innovative companies.

Prior Art References

U.S. Patent No. 6,854,117

  • EP-1163777-B1

  • EP-1244964-A1

  • A Parallel TCP/IP Protocol Implementation

  • Journal of of Parallel and Distributed Computing

  • KR-100664778-B1

  • KR-20020003787-A

  • Universal schemes for parallel communication

  • US Patent No. 20010043611-A1

  • US Patent No. 20050063382-A1

  • US Patent No. 20050190694-A1

  • US Patent No. 20060153197-A1

  • US Patent No. 5768575-A

  • US Patent No. 6212629-B1

  • US Patent No. 6798778-B1

  • US Patent No. 6854117-B1

  • US Patent No. 6885946-B1

  • US Patent No. 6891829-B1

  • US Patent No. 6970462-B1

  • US Patent No. 6980552-B1

  • US Patent No. 6985438-B1

  • US Patent No. 6993578-B1

  • US Patent No. 7061910-B2

  • US Patent No. 7065050-B1

  • US Patent No. 7103055-B2

  • US Patent No. 7139753-B2

  • US Patent No. 7139901-B2

  • US Patent No. 7145869-B1

  • US Patent No. 7257616-B2

  • US Patent No. 7295552-B1

  • US Patent No. 7324514-B1

  • US Patent No. 7366171-B2

  • US Patent No. 7408935-B2

  • US Patent No. 7440417-B2

  • US Patent No. 7460534-B1

  • US Patent No. 7466703-B1

  • US Patent No. 7545808-B2

  • US Patent No. 7554907-B1

  • US Patent No. 7558270-B1

  • US Patent No. 7577148-B2

  • US Patent No. 7593403-B2

  • US Patent No. 7630312-B1

  • US Patent No. 7693149-B2

  • US Patent No. 7715328-B2

  • US Patent No. 7720055-B2

  • US Patent No. 7746854-B2

  • US Patent No. 7760747-B2

  • US Patent No. 7764674-B2

  • US Patent No. 8503323-B2

  • US Patent No. 8724632-B2

  • US Patent No. 8804739-B2

  • US Patent No. 8879395-B2

  • US Patent No. 9912590-B2

  • WO-2000019331-A9

U.S. Patent No. 6,954,431

  • DE-60031776-T2

  • DE-60035091-T2

  • DE-69734013-T2

  • EP-1161851-B1

  • EP-1183822-B1

  • EP-0615364A1 (Hendrik Van Bokhurst, 1994)

  • EP-0691769A1 (Maurice Duault, 1996)

  • EP-0892522A1 (Piet Van Mieghem, 1999)

  • EP-0903901A2 (Akira Hosoi, 1999)

  • EP-0941010A2

  • EP-0952741A2

  • EP-0957648A2

  • EP-0974029A1 (George Alan Limpkin, 2000)

  • EP-0987861A2

  • GB-2337429-A

  • GB-2339371-A

  • GB-2331659A (Anders Eriksson, 1999)

  • IEEE INTERNATIONAL CONFERENCE ON MULTIMEDIA COMPUTING AND SYSTEMS, PROCEEDINGS VOL 2. : 377-381 1999 (Zhao, 1999)

  • IEEE Std 802.1Q-1998

  • IL-134615-A

  • JOURNAL OF HIGH SPEED NETWORKS. 8 (1): 3-16 1999 (Turner, 1999)

  • JP-2001156779-A

  • JP-4490956-B2

  • JP-H07170271-A

  • JP-2000083055A (Masaaki Iwasaki, 2000)

  • JP-8-257917

  • JP-H07307762A (Kana Izumi, 1995)

  • JP-H08288953A (Masateru Fukano, 1996)

  • JP-H09116551A (Yasuhiro Katsube, 1997)

  • JP-H09149051A (Yoshimitsu Shimojo, 1997)

  • JP-H09331359A (Hidehiro Fukushima, 1997)

  • JP-H10126419A (Masayuki Shinohara, 1998)

  • JP-H10164136A (Yoshihiro Oba, 1998)

  • JP-H11112544A (Yuji Hasegawa, 1999)

  • JP-H1127327A (Brian Jerry Allain, 1999)

  • JP-H1132370A

  • JP-H11346246A (Takeshi Aimoto, 1999)

  • KR-100877633-B1

  • KR-100921552-B1

  • QOS using 3bit header to establish priority

  • US Patent No. 20010043609-A1

  • US Patent No. 20020049854-A1

  • US Patent No. 20030133406-A1

  • US Patent No. 20030133411-A1

  • US Patent No. 20040081093-A1

  • US Patent No. 20050128951-A1

  • US Patent No. 5014265A (Ellen L. Hahne, 1991)

  • US Patent No. 5341477A (Richard P. Pitkin, 1994)

  • US Patent No. 5365512A (Edward A. Combs, 1994)

  • US Patent No. 5377189A (Alan D. Clark, 1994)

  • US Patent No. 5459717A (John A. Mullan, 1995)

  • US Patent No. 5461615A (Michel Henrion, 1995)

  • US Patent No. 5473607A (Richard J. Hausman, 1995)

  • US Patent No. 5504921A (Roger H. Dev, 1996)

  • US Patent No. 5550816A (Ken Hardwick, 1996)

  • US Patent No. 5555398A (Srinivas Raman, 1996)

  • US Patent No. 5579482A (Robert L. Einkauf, 1996)

  • US Patent No. 5598410A (Geoffrey C. Stone, 1997)

  • US Patent No. 5600795A (Yonggang Du, 1997)

  • US Patent No. 5613004A (Marc Cooperman, 1997)

  • US Patent No. 5619497A (Brian Gallagher, 1997)

  • US Patent No. 5640504A (Harold E. Johnson, 1997)

  • US Patent No. 5663952A (Denton E. Gentry, 1997)

  • US Patent No. 5663959A (Tatsuo Nakagawa, 1997)

  • US Patent No. 5732080A (H. Earl Ferguson, 1998)

  • US Patent No. 5781534A (Radia J. Perlman, 1998)

  • US Patent No. 5781549A (William Dai, 1998)

  • US Patent No. 5802287A (Michael D. Rostoker, 1998)

  • US Patent No. 5818816A (Tsutomu Chikazawa, 1998)

  • US Patent No. 5838684A (Thomas M. Wicki, 1998)

  • US Patent No. 5845277A (John M. Pfeil, 1998)

  • US Patent No. 5872783A (Hon Wah Chin, 1999)

  • US Patent No. 5875200A (Neal Glover, 1999)

  • US Patent No. 5878220A (Jeffrey C. Olkin, 1999)

  • US Patent No. 5907660A (Sadayuki Inoue, 1999)

  • US Patent No. 5915094A (Jack Lawrence Kouloheris, 1999)

  • US Patent No. 5917821A (Jerome Gobuyan, 1999)

  • US Patent No. 5920566A (Ariel Hendel, 1999)

  • US Patent No. 5933425A (Atsushi Iwata, 1999)

  • US Patent No. 5936939A (George Thomas Des Jardins, 1999)

  • US Patent No. 5936940 - Adaptive rate-based congestion control in packet networks

  • US Patent No. 5958009A (Richard J. Friedrich, 1999)

  • US Patent No. 5971587A

  • US Patent No. 5978359A (Stephen A. Caldara, 1999)

  • US Patent No. 5987507A (Tadhg Creedon, 1999)

  • US Patent No. 6011795A (George Varghese, 2000)

  • US Patent No. 6023456-A

  • US Patent No. 6028842-A

  • US Patent No. 6031843A (Adam R. Swanbery, 2000)

  • US Patent No. 6035414A (Koichi Okazawa, 2000)

  • US Patent No. 6038288A (Gene Gilles Thomas, 2000)

  • US Patent No. 6041053A (John R. Douceur, 2000)

  • US Patent No. 6047323A (Michael R. Krause, 2000)

  • US Patent No. 6047331A (Muriel Medard, 2000)

  • US Patent No. 6052469A (Donald Byron Johnson, 2000)

  • US Patent No. 6084855-A

  • US Patent No. 6144639

  • US Patent No. 6185736

  • US Patent No. 6278995-B1

  • US Patent No. 6295532-B1

  • US Patent No. 6363053-B1

  • US Patent No. 6430154-B1

  • US Patent No. 6459682-B1

  • US Patent No. 6466985-B1

  • US Patent No. 6487170-B1

  • US Patent No. 6493317-B1

  • US Patent No. 6542466

  • US Patent No. 6567408-B1

  • US Patent No. 6587436

  • US Patent No. 6598034-B1

  • US Patent No. 6636509-B1

  • US Patent No. 6647424-B1

  • US Patent No. 6674760-B1

  • US Patent No. 6744767-B1

  • US Patent No. 6757249-B1

  • US Patent No. 6778523-B1

  • US Patent No. 6785260-B1

  • US Patent No. 6798746-B1

  • US Patent No. 6801502-B1

  • US Patent No. 6816456 - Methods and apparatus for network use optimization

  • US Patent No. 6826151

  • US Patent No. 6859438

  • US Patent No. 6865185-B1

  • US Patent No. 6868065-B1

  • US Patent No. 6882642-B1

  • US Patent No. 6888842-B1

  • US Patent No. 6901049

  • US Patent No. 6999420-B1

  • US Patent No. 7046665-B1

  • US Patent No. 7126918-B2

  • USRE42081

  • WIRELESS NETWORKS. 1 (1): 47-60 MAR 1995 (Ayanoglu, 1995)

  • WO-2000060808-A2

  • WO-2001003400-A2

  • WO-2001015386-A2

  • WO9419899A1 (Jan K. Michalek, 1994)

  • WO9853576A2 (Atle Monrad, 1998)

  • WO9911003A1 (Stephen R. Haddock, 1999)

  • WO9913624A1 (Simon Francis Carter, 1999)

  • WO9927684A1 (Guy Riddle, 1999)

  • WO9929137A2 (Nail Kavak, 1999)

  • WO9963439A1

  • WO9966676A1

  • ΙΕΕΕ Std 802.1D-1998

U.S. Patent No. 6,977,932

  • DE-60112700-T2

  • EP-1272916-B1

  • EP-1303923-A1

  • IL-137082-A

  • KR-20020077573-A

  • Tinc git repo first commit with real code

  • US 7,203,657 B1

  • US 7,363,353-B2

  • US Patent No. 20020003797-A1

  • US Patent No. 20020110087-A1

  • US Patent No. 20020172155-A1

  • US Patent No. 20020194368-A1

  • US Patent No. 20030012189-A1

  • US Patent No. 20030043792-A1

  • US Patent No. 20030118019-A1

  • US Patent No. 20030131131-A1

  • US Patent No. 20040114595-A1

  • US Patent No. 20040258073-A1

  • US Patent No. 20090080431-A1

  • US Patent No. 20100142548-A1

  • US Patent No. 6408001-B1

  • US Patent No. 6466985-B1

  • US Patent No. 6567406-B1

  • US Patent No. 6735190-B1

  • US Patent No. 6920133-B1

  • US Patent No. 6956821-B2

  • US Patent No. 6965572-B1

  • US Patent No. 6996110-B1

  • US Patent No. 7012919-B1

  • US Patent No. 7023846-B1

  • US Patent No. 7035259-B2

  • US Patent No. 7061911-B2

  • US Patent No. 7061921-B1

  • US Patent No. 7065084-B2

  • US Patent No. 7068654-B1

  • US Patent No. 7082102-B1

  • US Patent No. 7082140-B1

  • US Patent No. 7142518-B2

  • US Patent No. 7151773-B1

  • US Patent No. 7151775-B1

  • US Patent No. 7174388-B2

  • US Patent No. 7197033-B2

  • US Patent No. 7243161-B1

  • US Patent No. 7283477-B1

  • US Patent No. 7336648-B1

  • US Patent No. 7433969-B2

  • US Patent No. 7450578-B2

  • US Patent No. 7577143-B1

  • US Patent No. 7843924-B2

  • US Patent No. 7894352-B2

  • US Patent No. 8018939-B2

  • US Patent No. 8116325-B2

U.S. Patent No. 7,012,919

  • IP Flow Switching from Ipsilon from 1996 (see: https://tools.ietf.org/html/rfc1953)

  • IP Navigator from Ascend/Cascade

  • DE-60102367-T2

  • DE-69916747-T2

  • EP-1056234-A2

  • EP-1087576-A2

  • EP-1089506-A2

  • EP-1161851-B1

  • EP-1183822-B1

  • EP-1260115-B1

  • GB-2337429-A

  • IETF RFC 1953: Ipsilon Flow Management Protocol Specification for IPv4

  • KR-100353865-B1

  • MPLS Traffic Engineering by Awduche, et al.

  • US Patent No. 20010032271-A

  • US Patent No. 20030076838-A

  • US Patent No. 20040131013-A

  • US Patent No. 20060104297-A

  • US Patent No. 20080253379-A

  • US Patent No. 6084855-A

  • US Patent No. 6356564-B1

  • US Patent No. 6408001-B1

  • US Patent No. 6459682-B1

  • US Patent No. 6466985-B1

  • US Patent No. 6487170-B1

  • US Patent No. 6530032-B1

  • US Patent No. 6532088-B1

  • US Patent No. 6538991-B1

  • US Patent No. 6567406-B1

  • US Patent No. 6584071-B1

  • US Patent No. 6628649-B1

  • US Patent No. 6665273-B1

  • US Patent No. 6674760-B1

  • US Patent No. 6711125-B1

  • US Patent No. 6735190-B1

  • US Patent No. 6778531-B1

  • US Patent No. 6785260-B1

  • US Patent No. 6801502-B1

  • US Patent No. 6901048-B1

  • US Patent No. 6901053-B1

  • US Patent No. 6912232-B1

  • US Patent No. 6925054-B1

  • US Patent No. 6973033-B1

  • US Patent No. 6999420-B1

  • US Patent No. 7031299-B2

  • US Patent No. 7039009-B2

  • US Patent No. 7046665-B1

  • US Patent No. 7082101-B2

  • US Patent No. 7167443-B1

  • US Patent No. 7296087-B1

  • US Patent No. 9.479,436B2

  • US Patent No. 9112776-B2

  • WO-2001015386-A

  • WO-2001022658-A

  • US Patent No. 6118791

  • EP-19950480182

U.S. Patent No. 7,630,358

U.S. Patent No. 8,243,593

  • DE-60308493-T2

  • EP-1035751-A2

  • EP-1303923-B1

  • EP-1419625-B1

  • Toward Cost-Sensitive Modeling for Intrusion Detection

  • Scalable Distributed Router Mechanisms to Encourage Network Congestion Avoidance by Rena Whei-Ming Yang

  • US Patent No. 20020126669-A1

  • US Patent No. 20020176359-A1

  • US Patent No. 20020176363-A1

  • US Patent No. 20020186661-A1

  • US Patent No. 20030012200-A1

  • US Patent No. 20030058793-A1

  • US Patent No. 20030063348-A1

  • US Patent No. 20030142676-A1

  • US Patent No. 20030223370-A1

  • US Patent No. 20030231646-A1

  • US Patent No. 20040032872-A1

  • US Patent No. 20040264380-A1

  • US Patent No. 20060171318-A1

  • US Patent No. 20080056268-A1

  • US Patent No. 20100177638-A1

  • US Patent No. 20130258853-A1

  • US Patent No. 20150156112-A1

  • US Patent No. 6188674-B1

  • US Patent No. 6246684-B1

  • US Patent No. 6363056-B1

  • US Patent No. 6826150-B1

  • US Patent No. 6853638-B2

  • US Patent No. 6888797-B1

  • US Patent No. 6904015-B1

  • US Patent No. 7092357-B1

  • US Patent No. 7158480-B1

  • US Patent No. 7206861-B1

  • US Patent No. 7251215-B1

  • US Patent No. 7254114-B1

  • US Patent No. 7310306-B1

  • US Patent No. 7388831-B2

  • US Patent No. 7428209-B1

  • US Patent No. 7436770-B2

  • US Patent No. 7508769-B1

  • US Patent No. 7535845-B2

  • US Patent No. 7554914-B1

  • US Patent No. 7688727-B1

  • US Patent No. 7738396-B1

  • US Patent No. 7760636-B1

  • US Patent No. 7859994-B2

  • US Patent No. 8014290-B2

  • US Patent No. 8243593-B2

  • US Patent No. 9306757-B2

  • WO-1999063727-A1

  • WO-2003040874-A2

  • WO-2004023718-A2

U.S. Patent No. 8,085,775

  • US Patent No. 6839751

  • US Patent No. 7385924

  • US Patent No. 7385924B1

  • US Patent No. 7756997

  • US Patent No. 7782793

U.S. Patent No. 8,817,790

  • US Patent No. 7480736

U.S. Patent No. 9,774,501

  • US Patent 8,028,336