He is known for his theoretical contributions to system identification and modeling, spectral analysis, array signal processing, space-time coding, and waveform design for active sensing. His practical contributions include the areas of wireless communications, microwave imaging for breast cancer detection, radar/sonar systems, acoustic source mapping, landmine and explosive detection, and magnetic resonance spectroscopy and imaging. His books on System Identification, Spectral Analysis, and Space-Time Coding for Wireless Communications have been used in both undergraduate and graduate courses and are highly cited (his works rank in the top 1% by citations for the field of engineering).[10]
He has been included on the
ISI list of the 250 most highly cited researchers in engineering in the world.[11][12]
Peter and his wife Anca-Juliana (a professor of software and system engineering) live in Uppsala, Sweden. The attached photo shows them during an awards ceremony
at the Castle in Uppsala.
(out of 800 scientific papers and 30 books and book chapters[28])
T. Söderström and P. Stoica, System Identification. Prentice-Hall, London, United Kingdom, 1989 (Paperback Edition 1994, Polish Edition 1997, Chinese Edition 2017).
[1]
P. Stoica and R. Moses, Introduction to Spectral Analysis. Prentice-Hall, Englewood Cliffs, USA, 1997.
available for download.
P. Stoica and A. Nehorai, Music, Maximum likelihood and the Cramér-Rao bound. IEEE Trans. Acoustics, Speech, Signal Processing, vol. ASSP-37, 720–741, 1989.[29]
E Larsson and P Stoica,Space-Time Block Coding For Wireless Communications. Cambridge University Press, UK, 2003 (Chinese Edition, 2006).[30]
P Stoica and R Moses, Spectral Analysis of Signals. Prentice Hall, NJ, 2005 (Chinese Edition, 2007).
available for download.
H Sampath, P Stoica and A Paulraj, Generalized linear precoder and decoder design for MIMO channels using the weighted MMSE criterion. IEEE Trans Comm, vol 49, 2198–2206, 2001.[31]
A Scaglione, P Stoica, S Barbarossa,
G Giannakis and H Sampath. Optimal designs for space-time linear precoders and decoders. IEEE Trans Signal Processing, vol 50, 1051–1064, 2002.[32]
J Li, P Stoica and Z Wang, On robust Capon beamforming and diagonal loading. IEEE Trans Signal Process, vol 51, 1702–1715, 2003.[33]
J Li and P Stoica, MIMO radar with colocated antennas: review of some recent work. IEEE Signal Processing Mag., 106–114, September, 2007.[34]
P. Stoica and A. Nehorai, Performance study of conditional and unconditional direction of arrival estimation. IEEE Trans. Acoust., Speech, Signal Process., vol. ASSP-38, 1783–1795, Oct. 1990.[35]
Citation counts for the above publications can be found at:
Google Scholar page.
He is known for his theoretical contributions to system identification and modeling, spectral analysis, array signal processing, space-time coding, and waveform design for active sensing. His practical contributions include the areas of wireless communications, microwave imaging for breast cancer detection, radar/sonar systems, acoustic source mapping, landmine and explosive detection, and magnetic resonance spectroscopy and imaging. His books on System Identification, Spectral Analysis, and Space-Time Coding for Wireless Communications have been used in both undergraduate and graduate courses and are highly cited (his works rank in the top 1% by citations for the field of engineering).[10]
He has been included on the
ISI list of the 250 most highly cited researchers in engineering in the world.[11][12]
Peter and his wife Anca-Juliana (a professor of software and system engineering) live in Uppsala, Sweden. The attached photo shows them during an awards ceremony
at the Castle in Uppsala.
(out of 800 scientific papers and 30 books and book chapters[28])
T. Söderström and P. Stoica, System Identification. Prentice-Hall, London, United Kingdom, 1989 (Paperback Edition 1994, Polish Edition 1997, Chinese Edition 2017).
[1]
P. Stoica and R. Moses, Introduction to Spectral Analysis. Prentice-Hall, Englewood Cliffs, USA, 1997.
available for download.
P. Stoica and A. Nehorai, Music, Maximum likelihood and the Cramér-Rao bound. IEEE Trans. Acoustics, Speech, Signal Processing, vol. ASSP-37, 720–741, 1989.[29]
E Larsson and P Stoica,Space-Time Block Coding For Wireless Communications. Cambridge University Press, UK, 2003 (Chinese Edition, 2006).[30]
P Stoica and R Moses, Spectral Analysis of Signals. Prentice Hall, NJ, 2005 (Chinese Edition, 2007).
available for download.
H Sampath, P Stoica and A Paulraj, Generalized linear precoder and decoder design for MIMO channels using the weighted MMSE criterion. IEEE Trans Comm, vol 49, 2198–2206, 2001.[31]
A Scaglione, P Stoica, S Barbarossa,
G Giannakis and H Sampath. Optimal designs for space-time linear precoders and decoders. IEEE Trans Signal Processing, vol 50, 1051–1064, 2002.[32]
J Li, P Stoica and Z Wang, On robust Capon beamforming and diagonal loading. IEEE Trans Signal Process, vol 51, 1702–1715, 2003.[33]
J Li and P Stoica, MIMO radar with colocated antennas: review of some recent work. IEEE Signal Processing Mag., 106–114, September, 2007.[34]
P. Stoica and A. Nehorai, Performance study of conditional and unconditional direction of arrival estimation. IEEE Trans. Acoust., Speech, Signal Process., vol. ASSP-38, 1783–1795, Oct. 1990.[35]
Citation counts for the above publications can be found at:
Google Scholar page.