1. Y. Feldman, P. Ben-Ishai, A. Puzenko, A. Caduff; Andreas, and A. J. Agranat, “Method and System for Determination of Physiological Conditions and     Emotional  States of a Living Organism” U.S. Patent 8,311,616 (2012). 

  2. A. J. Agranat, L. Roguel-Rudolph, and N. Sapiens, “Dynamic Optical Circuit Switching by Wavelength Addressing Applied to Data Centers, High Performance Computing and Storage Area Networks”. European patent  1935119 (2012).

  3. Y. Lubianiker, L. Secundo, and A. J. Agranat; “Operational range designation and enhancement in optical readout of temperature” U.S. Patent application No. 20020163693.

  4. A. J. Agranat, “Optical routing and transport accelerator”, U.S. Patent 8,588,620 

  5. A. J. Agranat, "Electro-Optic Crystal Based Structures and Method of Their Fabrication ", USPTO application 20130142493. 

  6. A. J. Agranat and S. Belkin, "Concurrent monitoring of a plurality of sensors in an array of biosensing elements", U.S. Patent 8,198,606(B2) (2012). 

  7. A. J. Agranat, “The Laser Power Grid”, U.S. Patent 7,715,714 (2010).

  8. A. J. Agranat and C. E. M. de Oliveira, "Stable dielectric gratings implemented by composition striations in paraelectric crystals". US patent 20090180184. 

  9. A. J. Agranat, R. Hofmeister and A. Yariv, ‘Potassium lithium tantalate niobate photorefractive crystals’, U. S. Patent 5,785,898, (1998). 

  10. A. J. Agranat, Benny Pessah, and Larry Rudolph ‘Electroholographic Optical Switch’, U. S. Patent 6,542,264, (2003).

  11. A. Yariv, C. F. Neugebauer, and A. J. Agranat, 'Programmable Synapse for Neural Network Applications'. U. S. Patent 5,353,382, (1994). 

  12. A. J. Agranat and L. Rudolph, “Optical Network”, U. S. Patent 5,887,090 (1999).

  13. A. Yariv, C. F. Neugebauer, and A. J. Agranat, 'Method and Apparatus for Making Accurate Potential Well Adjustments in CCD'. U. S. Patent 5,270,559, (1993).

  14. A. J. Agranat, R. Hofmeister and A. Yariv, 'KLTN A new Photorefractive Material for Holographic Data Storage and Optical Computing Applications', U. S. Patent 5,614,129, (1997).

  15. V. A. Pedroni, A. J. Agranat and A. Yariv, ‘Parallel CCD Memory Chip, and Method of Matching Therewith’, U. S. Patent 5,386,384, (1995).

  16. A. J. Agranat and J. Shappir 'A Charge Controlled Analog Multiply Accumulate  Circuit For Matrix - Vector Multiplication and Realizations of Artificial Neural  Networks'. U.S. Patent 5,619,444 (1997). 

  17. A. J. Agranat and G. Sirat, 'The Fabri-Perot Spatial Light Modulator', French Ministry of Telecomunications Patent No. 9009630 (1990), and U.S. Patent 5,291,314 (1994).

  18. C. F. Neugebauer, A. J. Agranat, and A. Yariv "Method and apparatus for making highly accurate potential well adjustments in CCD's"  U.S. Patent 5,270,559 

  19. A. J. Agranat, C. F. Neugebauer,  and A. Yariv 'A Charge Domain Bit Serial Vector Matrix Multiplier for Real-Time Signal Processing', U.S. Patent 5,258,934 (1993).

  20. A. J. Agranat, C. F. Neugebauer, and A. Yariv , "Non-destructive charge domain multiplier and process thereof" , U.S. Patent 5,054,040 (1991). 

  21. A. J. Agranat, C. F. Neugebauer and A. Yariv, 'Parallel Optoelectronic Neural Network Processors' , U.S. Patent 5,008,833 (1991).

  22. A. J. Agranat, and Y. Yacoby, 'Crystals and Holographic Memories Incorporating the Same', Israel Patent No. 79577 (1986).