Abstract

This paper proposes a technique for the initial design stage of video systems, including the structural and parametric synthesis of photodetector and encoding devices combined on a single chip. An approach to the synthesis of video systems on a chip is outlined, using an efficiency index that takes into account the interconnection of the complexity and the transfer rate. A method is proposed for distributing the area of the chip between the photodetector and the computer. The concept of parallel input of video information from the photodetector into the computer is considered.

© 2012 OSA

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  1. V. G. Nemudrov and G. Martin, Systems on a Chip: Problems of Design and Development (Tekhnosfera, Moscow, 2004).
  2. N. N. Moiseev, Mathematical Problems of Systems Analysis (Nauka, Moscow, 1981).
  3. V. V. Ablogin, D. Yu. Adamov, V. A. Zimoglyad, S. A. Kokin, S. V. Makarov, V. N. Perminov, and V. B. Steshenko, “The AVOKAD automatic design system for designing CMOS photodetectors and analog–digital integrated circuits,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 83 (2010).
  4. J. Reichel and F. Ziliani, “Method of selecting among N ‘spatial video codes’ the optimum codes for a same input signal,” International Application Number: PCT/IB2003/005852. Priority Date: 12/17/2002.
  5. A. K. Tsytsulin, Sh. S. Fakhmi, A. A. Mantsvetov, O. D. Malashin, and I. A. Zubakin, “Stabilization of images on the basis of a measurement of their displacement, using a photodetector array and two linear photodetectors in combination,” Opt. Zh. 79, No. 11, 67 (2012). [J. Opt. Technol. 79, 727 (2012)].
  6. Sh. S. Fakhmi, “Models, methods, and algorithms for encoding images in systems on a chip,” author’s abstract of doctoral dissertation, St. Petersburg, 2011, SPbGÉTU LÉTI.
  7. A. K. Tsytsulin and Sh. S. Fakhmi, “Video systems on a chip: New architectural solutions in problems of video-information processing,” Datch. Sis. No. 4, 58 (2011).
  8. I. A. Zubakin, A. K. Tsytsulin, and Sh. S. Fakhmi, “Initial design stage of a source encoder of a continuous signal,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 17 (2010).
  9. L. I. Khromov and A. K. Tsytsulin, “The basis of space-based video informatics,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 6 (2011).
  10. L. S. Gutkin, The Optimization of Electronic Devices (Sov. Radio, Moscow, 1975).
  11. I. E. G. Richardson, H.264 and MPEG-4 Video Compression: Video Coding for Next Generation Multimedia (Wiley, Chichester, 2003; Tekhnosfera, Moscow, 2005).
  12. A. K. Tsytsulin and Sh. S. Fakhmi, “Program for computer ‘Iterative spectral image encoder’,” Certificate No. 2011614671, Registered with the State Registrar of Inventions of the Russian Federation 6/10/2011, RU OBPT No. 3 (76) ch. II, p. 474, 2011.
  13. A. A. Umbitaliev, A. K. Tsytsulin, N. N. Shipilov, S. M. Ibatullin, V. F. Ibatulin, and Sh. S. Fakhmi, “Method of encoding and decoding video information on the basis of a three-dimensional discrete cosine transformation,” Russian Federation Patent No. 2 375 838 (2009).
  14. V. V. Berezin, A. A. Umbitaliev, Sh. S. Fakhmi, A. K. Tsytsulin, and N. N. Shipilov, The Solid-State Revolution in Television (Radio i Svyaz’, Moscow, 2006).

2012 (1)

A. K. Tsytsulin, Sh. S. Fakhmi, A. A. Mantsvetov, O. D. Malashin, and I. A. Zubakin, “Stabilization of images on the basis of a measurement of their displacement, using a photodetector array and two linear photodetectors in combination,” Opt. Zh. 79, No. 11, 67 (2012). [J. Opt. Technol. 79, 727 (2012)].

2011 (2)

A. K. Tsytsulin and Sh. S. Fakhmi, “Video systems on a chip: New architectural solutions in problems of video-information processing,” Datch. Sis. No. 4, 58 (2011).

L. I. Khromov and A. K. Tsytsulin, “The basis of space-based video informatics,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 6 (2011).

2010 (2)

V. V. Ablogin, D. Yu. Adamov, V. A. Zimoglyad, S. A. Kokin, S. V. Makarov, V. N. Perminov, and V. B. Steshenko, “The AVOKAD automatic design system for designing CMOS photodetectors and analog–digital integrated circuits,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 83 (2010).

I. A. Zubakin, A. K. Tsytsulin, and Sh. S. Fakhmi, “Initial design stage of a source encoder of a continuous signal,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 17 (2010).

Ablogin, V. V.

V. V. Ablogin, D. Yu. Adamov, V. A. Zimoglyad, S. A. Kokin, S. V. Makarov, V. N. Perminov, and V. B. Steshenko, “The AVOKAD automatic design system for designing CMOS photodetectors and analog–digital integrated circuits,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 83 (2010).

Adamov, D. Yu.

V. V. Ablogin, D. Yu. Adamov, V. A. Zimoglyad, S. A. Kokin, S. V. Makarov, V. N. Perminov, and V. B. Steshenko, “The AVOKAD automatic design system for designing CMOS photodetectors and analog–digital integrated circuits,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 83 (2010).

Berezin, V. V.

V. V. Berezin, A. A. Umbitaliev, Sh. S. Fakhmi, A. K. Tsytsulin, and N. N. Shipilov, The Solid-State Revolution in Television (Radio i Svyaz’, Moscow, 2006).

Fakhmi, Sh. S.

A. K. Tsytsulin, Sh. S. Fakhmi, A. A. Mantsvetov, O. D. Malashin, and I. A. Zubakin, “Stabilization of images on the basis of a measurement of their displacement, using a photodetector array and two linear photodetectors in combination,” Opt. Zh. 79, No. 11, 67 (2012). [J. Opt. Technol. 79, 727 (2012)].

A. K. Tsytsulin and Sh. S. Fakhmi, “Video systems on a chip: New architectural solutions in problems of video-information processing,” Datch. Sis. No. 4, 58 (2011).

I. A. Zubakin, A. K. Tsytsulin, and Sh. S. Fakhmi, “Initial design stage of a source encoder of a continuous signal,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 17 (2010).

Sh. S. Fakhmi, “Models, methods, and algorithms for encoding images in systems on a chip,” author’s abstract of doctoral dissertation, St. Petersburg, 2011, SPbGÉTU LÉTI.

A. K. Tsytsulin and Sh. S. Fakhmi, “Program for computer ‘Iterative spectral image encoder’,” Certificate No. 2011614671, Registered with the State Registrar of Inventions of the Russian Federation 6/10/2011, RU OBPT No. 3 (76) ch. II, p. 474, 2011.

V. V. Berezin, A. A. Umbitaliev, Sh. S. Fakhmi, A. K. Tsytsulin, and N. N. Shipilov, The Solid-State Revolution in Television (Radio i Svyaz’, Moscow, 2006).

Gutkin, L. S.

L. S. Gutkin, The Optimization of Electronic Devices (Sov. Radio, Moscow, 1975).

Khromov, L. I.

L. I. Khromov and A. K. Tsytsulin, “The basis of space-based video informatics,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 6 (2011).

Kokin, S. A.

V. V. Ablogin, D. Yu. Adamov, V. A. Zimoglyad, S. A. Kokin, S. V. Makarov, V. N. Perminov, and V. B. Steshenko, “The AVOKAD automatic design system for designing CMOS photodetectors and analog–digital integrated circuits,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 83 (2010).

Makarov, S. V.

V. V. Ablogin, D. Yu. Adamov, V. A. Zimoglyad, S. A. Kokin, S. V. Makarov, V. N. Perminov, and V. B. Steshenko, “The AVOKAD automatic design system for designing CMOS photodetectors and analog–digital integrated circuits,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 83 (2010).

Malashin, O. D.

A. K. Tsytsulin, Sh. S. Fakhmi, A. A. Mantsvetov, O. D. Malashin, and I. A. Zubakin, “Stabilization of images on the basis of a measurement of their displacement, using a photodetector array and two linear photodetectors in combination,” Opt. Zh. 79, No. 11, 67 (2012). [J. Opt. Technol. 79, 727 (2012)].

Mantsvetov, A. A.

A. K. Tsytsulin, Sh. S. Fakhmi, A. A. Mantsvetov, O. D. Malashin, and I. A. Zubakin, “Stabilization of images on the basis of a measurement of their displacement, using a photodetector array and two linear photodetectors in combination,” Opt. Zh. 79, No. 11, 67 (2012). [J. Opt. Technol. 79, 727 (2012)].

Martin, G.

V. G. Nemudrov and G. Martin, Systems on a Chip: Problems of Design and Development (Tekhnosfera, Moscow, 2004).

Moiseev, N. N.

N. N. Moiseev, Mathematical Problems of Systems Analysis (Nauka, Moscow, 1981).

Nemudrov, V. G.

V. G. Nemudrov and G. Martin, Systems on a Chip: Problems of Design and Development (Tekhnosfera, Moscow, 2004).

Perminov, V. N.

V. V. Ablogin, D. Yu. Adamov, V. A. Zimoglyad, S. A. Kokin, S. V. Makarov, V. N. Perminov, and V. B. Steshenko, “The AVOKAD automatic design system for designing CMOS photodetectors and analog–digital integrated circuits,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 83 (2010).

Reichel, J.

J. Reichel and F. Ziliani, “Method of selecting among N ‘spatial video codes’ the optimum codes for a same input signal,” International Application Number: PCT/IB2003/005852. Priority Date: 12/17/2002.

Richardson, I. E. G.

I. E. G. Richardson, H.264 and MPEG-4 Video Compression: Video Coding for Next Generation Multimedia (Wiley, Chichester, 2003; Tekhnosfera, Moscow, 2005).

Shipilov, N. N.

V. V. Berezin, A. A. Umbitaliev, Sh. S. Fakhmi, A. K. Tsytsulin, and N. N. Shipilov, The Solid-State Revolution in Television (Radio i Svyaz’, Moscow, 2006).

Steshenko, V. B.

V. V. Ablogin, D. Yu. Adamov, V. A. Zimoglyad, S. A. Kokin, S. V. Makarov, V. N. Perminov, and V. B. Steshenko, “The AVOKAD automatic design system for designing CMOS photodetectors and analog–digital integrated circuits,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 83 (2010).

Tsytsulin, A. K.

A. K. Tsytsulin, Sh. S. Fakhmi, A. A. Mantsvetov, O. D. Malashin, and I. A. Zubakin, “Stabilization of images on the basis of a measurement of their displacement, using a photodetector array and two linear photodetectors in combination,” Opt. Zh. 79, No. 11, 67 (2012). [J. Opt. Technol. 79, 727 (2012)].

L. I. Khromov and A. K. Tsytsulin, “The basis of space-based video informatics,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 6 (2011).

A. K. Tsytsulin and Sh. S. Fakhmi, “Video systems on a chip: New architectural solutions in problems of video-information processing,” Datch. Sis. No. 4, 58 (2011).

I. A. Zubakin, A. K. Tsytsulin, and Sh. S. Fakhmi, “Initial design stage of a source encoder of a continuous signal,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 17 (2010).

V. V. Berezin, A. A. Umbitaliev, Sh. S. Fakhmi, A. K. Tsytsulin, and N. N. Shipilov, The Solid-State Revolution in Television (Radio i Svyaz’, Moscow, 2006).

A. K. Tsytsulin and Sh. S. Fakhmi, “Program for computer ‘Iterative spectral image encoder’,” Certificate No. 2011614671, Registered with the State Registrar of Inventions of the Russian Federation 6/10/2011, RU OBPT No. 3 (76) ch. II, p. 474, 2011.

Umbitaliev, A. A.

V. V. Berezin, A. A. Umbitaliev, Sh. S. Fakhmi, A. K. Tsytsulin, and N. N. Shipilov, The Solid-State Revolution in Television (Radio i Svyaz’, Moscow, 2006).

Ziliani, F.

J. Reichel and F. Ziliani, “Method of selecting among N ‘spatial video codes’ the optimum codes for a same input signal,” International Application Number: PCT/IB2003/005852. Priority Date: 12/17/2002.

Zimoglyad, V. A.

V. V. Ablogin, D. Yu. Adamov, V. A. Zimoglyad, S. A. Kokin, S. V. Makarov, V. N. Perminov, and V. B. Steshenko, “The AVOKAD automatic design system for designing CMOS photodetectors and analog–digital integrated circuits,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 83 (2010).

Zubakin, I. A.

A. K. Tsytsulin, Sh. S. Fakhmi, A. A. Mantsvetov, O. D. Malashin, and I. A. Zubakin, “Stabilization of images on the basis of a measurement of their displacement, using a photodetector array and two linear photodetectors in combination,” Opt. Zh. 79, No. 11, 67 (2012). [J. Opt. Technol. 79, 727 (2012)].

Zubakin, I. A.

I. A. Zubakin, A. K. Tsytsulin, and Sh. S. Fakhmi, “Initial design stage of a source encoder of a continuous signal,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 17 (2010).

Datch. Sis. (1)

A. K. Tsytsulin and Sh. S. Fakhmi, “Video systems on a chip: New architectural solutions in problems of video-information processing,” Datch. Sis. No. 4, 58 (2011).

Opt. Zh. (1)

A. K. Tsytsulin, Sh. S. Fakhmi, A. A. Mantsvetov, O. D. Malashin, and I. A. Zubakin, “Stabilization of images on the basis of a measurement of their displacement, using a photodetector array and two linear photodetectors in combination,” Opt. Zh. 79, No. 11, 67 (2012). [J. Opt. Technol. 79, 727 (2012)].

Vop. Radioélek. Ser. Tekh. Televid. (3)

V. V. Ablogin, D. Yu. Adamov, V. A. Zimoglyad, S. A. Kokin, S. V. Makarov, V. N. Perminov, and V. B. Steshenko, “The AVOKAD automatic design system for designing CMOS photodetectors and analog–digital integrated circuits,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 83 (2010).

I. A. Zubakin, A. K. Tsytsulin, and Sh. S. Fakhmi, “Initial design stage of a source encoder of a continuous signal,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 17 (2010).

L. I. Khromov and A. K. Tsytsulin, “The basis of space-based video informatics,” Vop. Radioélek. Ser. Tekh. Televid. No. 2, 6 (2011).

Other (9)

L. S. Gutkin, The Optimization of Electronic Devices (Sov. Radio, Moscow, 1975).

I. E. G. Richardson, H.264 and MPEG-4 Video Compression: Video Coding for Next Generation Multimedia (Wiley, Chichester, 2003; Tekhnosfera, Moscow, 2005).

A. K. Tsytsulin and Sh. S. Fakhmi, “Program for computer ‘Iterative spectral image encoder’,” Certificate No. 2011614671, Registered with the State Registrar of Inventions of the Russian Federation 6/10/2011, RU OBPT No. 3 (76) ch. II, p. 474, 2011.

A. A. Umbitaliev, A. K. Tsytsulin, N. N. Shipilov, S. M. Ibatullin, V. F. Ibatulin, and Sh. S. Fakhmi, “Method of encoding and decoding video information on the basis of a three-dimensional discrete cosine transformation,” Russian Federation Patent No. 2 375 838 (2009).

V. V. Berezin, A. A. Umbitaliev, Sh. S. Fakhmi, A. K. Tsytsulin, and N. N. Shipilov, The Solid-State Revolution in Television (Radio i Svyaz’, Moscow, 2006).

J. Reichel and F. Ziliani, “Method of selecting among N ‘spatial video codes’ the optimum codes for a same input signal,” International Application Number: PCT/IB2003/005852. Priority Date: 12/17/2002.

V. G. Nemudrov and G. Martin, Systems on a Chip: Problems of Design and Development (Tekhnosfera, Moscow, 2004).

N. N. Moiseev, Mathematical Problems of Systems Analysis (Nauka, Moscow, 1981).

Sh. S. Fakhmi, “Models, methods, and algorithms for encoding images in systems on a chip,” author’s abstract of doctoral dissertation, St. Petersburg, 2011, SPbGÉTU LÉTI.

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