[1] W. Chojnacki.
A note on crossed products.
Expo. Math., 39(1):115-128, 2021.
pdf | doi.
[2] W. Chojnacki, Z. L. Szpak, and M. Wadenbäck.
The equivalence of two definitions of compatible homography matrices.
Pattern Recognition Lett., 135:38-43, 2020.
pdf | doi.
[3] W. Chojnacki and Z. L. Szpak.
Full explicit consistency constraints in uncalibrated multiple homography estimation.
In C. V. Jawahar, H. Li, G. Mori, and K. Schindler, editors, Computer Vision - ACCV 2018, 14th Asian Conf. Computer Vision, Perth, Australia, December 2–6, 2018, Revised Selected Papers, Part I, volume 11361 of Lecture Notes in Computer Science, pages 656-675. Springer, 2019.
pdf | doi.
[4] W. Chojnacki and Z. L. Szpak.
Determining ellipses from low-resolution images with a comprehensive image formation model.
J. Opt. Soc. Am. A, 36(2):212-233, 2019.
pdf | doi.
[5] A. Neumann, Z. L. Szpak, W. Chojnacki, and F. Neumann.
Evolutionary image composition using feature covariance matrices.
In Proceedings of the Genetic and Evolutionary Computation Conference - GECCO 2017, 15 - 19 July 2017, Berlin, Germany, pages 817-824, New York, NY, USA, 2017. ACM.
pdf | doi.
[6] W. Chojnacki.
Around Schwenninger and Zwart's zero-two law for cosine families.
Arch. Math. (Basel), 106(6):561-571, 2016.
pdf | doi.
[7] Z. L. Szpak, W. Chojnacki, and A. van den Hengel.
Robust multiple homography estimation: an ill-solved problem.
In Proc. IEEE Conf. Computer Vision and Pattern Recognition, pages 2132-2141, 2015.
pdf | doi.
[8] Z. L. Szpak, W. Chojnacki, and A. van den Hengel.
Guaranteed ellipse fitting with a confidence region and an uncertainty measure for centre, axes, and orientation.
J. Math. Imaging Vision, 52(2):173-199, 2015.
pdf | doi | code.
[9] H. Faulkner, E. Shehu, Z. L. Szpak, W. Chojnacki, J. R. Tapamo, A. Dick, and A. van den Hengel.
A study of the region covariance descriptor: impact of feature selection and image transformations.
In Proceedings, 2015 Digital Image Computing: Techniques and Applications - DICTA 2015, 23-25 November 2015, Adelaide, Australia, pages 1-8, Los Alamitos, CA, USA, 2015. IEEE Computer Society.
pdf | doi.
[10] W. Chojnacki, Z. L. Szpak, M. J. Brooks, and A. van den Hengel.
Enforcing consistency constraints in uncalibrated multiple homography estimation using latent variables.
Mach. Vision Appl., 26(2):401-422, 2015.
pdf | doi | code.
[11] W. Chojnacki.
On cosine families close to scalar cosine families.
J. Aust. Math. Soc., 99:166-174, 2015.
pdf | doi.
[12] A. Bobrowski, W. Chojnacki, and A. Gregosiewicz.
On close-to-scalar one-parameter cosine families.
J. Math. Anal. Appl., 429(1):383-394, 2015.
pdf | doi.
[13] Q. H. Tran, T.-J. Chin, W. Chojnacki, and D. Suter.
Sampling minimal subsets with large spans for robust estimation.
Int. J. Comput. Vision, 106(1):93-112, 2014.
doi.
[14] Z. L. Szpak, W. Chojnacki, A. Eriksson, and A. van den Hengel.
Sampson distance based joint estimation of multiple homographies with uncalibrated cameras.
Comput. Vis. Image Underst., 125:200-213, 2014.
pdf | doi.
[15] W. Chojnacki and A. van den Hengel.
On the dimension of the set of two-view multi-homography matrices.
Complex Anal. Oper. Theory, 7(2):465-484, 2013.
pdf | doi.
[16] A. Bobrowski and W. Chojnacki.
Isolated points of some sets of bounded cosine families, bounded semigroups, and bounded groups on a Banach space.
Studia Math., 217(3):219-241, 2013.
pdf.
[17] A. Bobrowski and W. Chojnacki.
Cosine families and semigroups really differ.
J. Evol. Equ., 13(4):897-916, 2013.
pdf.
[18] Z. Szpak, W. Chojnacki, and A. van den Hengel.
Guaranteed ellipse fitting with the Sampson distance.
In A. Fitzgibbon, S. Lazebnik, P. Perona, Y. Sato, and C. Schmid, editors, Computer Vision - ECCV 2012, 12th European Conf. Computer Vision, Florence, Italy, October 7-13, 2012. Proceedings, Part V, volume 7576 of Lecture Notes in Computer Science, pages 87-100. Springer, 2012.
pdf.
[19] Z. Szpak, W. Chojnacki, and A. van den Hengel.
A comparison of ellipse fitting methods and implications for multiple-view geometry estimation.
In Proceedings, 2012 Digital Image Computing: Techniques and Applications - DICTA 2012, 3-5 December 2012, Fremantle, Western Australia, pages 1-8, Los Alamitos, CA, USA, 2012. IEEE Computer Society.
pdf.
[20] W. Chojnacki and A. van den Hengel.
A dimensionality result for multiple homography matrices.
In Proceedings, 13th IEEE International Conference on Computer Vision, November 6-13, 2011, Barcelona, Spain, pages 2104-2109. IEEE Computer Society, Los Alamitos, CA, 2011.
pdf.
[21] W. Chojnacki.
On uniformly bounded spherical functions in Hilbert space.
Aequationes Math., 81:135-154, 2011.
pdf.
[22] W. Chojnacki, Z. L. Szpak, M. J. Brooks, and A. van den Hengel.
Multiple homography estimation with full consistency constraints.
In Proceedings, 2010 Digital Image Computing: Techniques and Applications - DICTA 2010, 1-3 December 2010, Sydney, Australia, pages 480-485, Los Alamitos, CA, USA, 2010. IEEE Computer Society.
pdf | doi | src.
[23] W. Chojnacki.
On operator-valued cosine sequences on UMD spaces.
Studia Math., 199:267-278, 2010.
pdf.
[24] W. Chojnacki, R. Hill, A. van den Hengel, and M. J. Brooks.
Multi-projective parameter estimation for sets of homogeneous matrices.
In Proceedings, 2009 Digital Image Computing: Techniques and Applications - DICTA 2009, 1-3 December 2009, Melbourne, Australia, pages 119-124, Los Alamitos, CA, USA, 2009. IEEE Computer Society.
pdf | doi.
[25] W. Chojnacki and M. J. Brooks.
A note on the locally linear embedding algorithm.
Int. J. Pattern Recogn. Artif. Intell., 23(8):1739-1752, 2009.
pdf.
[26] T. Scoleri, W. Chojnacki, and M. J. Brooks.
Dimensionality reduction for more stable vision parameter estimation.
IET Comput. Vis., 2(4):218-227, 2008.
pdf.
[27] W. Chojnacki, A. van den Hengel, and M. J. Brooks.
Generalised principal component analysis: Exploiting inherent parameter constraints.
In J. Braz, A. Ranchordas, H. Araújo, and J. Jorge, editors, Advances in Computer Graphics and Computer Vision, volume 4 of Communications in Computer and Information Science, pages 217-228. Springer-Verlag, Berlin, 2008.
pdf.
[28] W. Chojnacki.
Some monotonicity and limit results for the regularised incomplete gamma function.
Ann. Polon. Math., 94:284-291, 2008.
pdf.
[29] A. van den Hengel, W. Chojnacki, and M. J. Brooks.
Determining the translational speed of a camera from time-varying optical flow.
In B. Jähne, R. Mester, E. Barth, and H. Scharr, editors, First International Workshop on Complex Motion, Güntzburg, Germany, October 12-14, 2004, volume 3417 of Lecture Notes in Computer Science, pages 193-200, Berlin, 2007. Springer-Verlag.
pdf.
[30] T. Scoleri, W. Chojnacki, and M. J. Brooks.
A decoupled algorithm for vision parameter estimation with application to the trifocal tensor.
In M. J. Bottema, A. Maeder, N. Redding, and A. van den Hengel, editors, Digital Image Computing: Techniques and Applications, Proceedings of the 9th Biennial Australian Pattern Recognition Society Conference - DICTA 2007, Glenelg, South Australia, Australia, 3-5 December 2007, pages 138-143, Los Alamitos, CA, 2007. IEEE Computer Society.
pdf.
[31] W. Chojnacki and M. J. Brooks.
On the consistency of the normalized eight-point algorithm.
J. Math. Imaging Vision, 28(1):19-27, 2007.
pdf.
[32] W. Chojnacki and M. J. Brooks.
A consistency result for the normalized eight-point algorithm.
In 14th International Conference on Image Analysis and Processing, Modena, Italy, 10-14 September, 2007, pages 603-608, Los Alamitos, CA, 2007. IEEE Computer Society.
pdf | slides.
[33] W. Chojnacki.
On group decompositions of bounded cosine sequences.
Studia Math., 181:61-85, 2007.
pdf.
[34] K. Baron, W. Chojnacki, and W. Jarczyk.
Continuity of solutions of the translation equation.
Aequationes Math., 74:314-317, 2007.
pdf.
[35] W. Chojnacki, A. van den Hengel, and M. J. Brooks.
Constrained generalised principal component analysis.
In A. Ranchordas, H. Araújo, and B. Encarnação, editors, Proceedings of First International Conference on Computer Vision Theory and Applications (VISAPP 2006), February 25-28, 2006, Setúbal, Portugal, volume 1, pages 206-212, Setúbal, 2006. INSTICC Press.
pdf.
[36] T. Scoleri, W. Chojnacki, and M. J. Brooks.
A multi-objective parameter estimator for image mosaicing.
In A. Bouzerdoum and A. Beghdadi, editors, Proceedings of the Eight International Symposium on Signal Processing and Its Applications (ISSPA 2005), August 28-31, 2005, Sydney, Australia, volume 2, pages 551-554. IEEE Press, 2005.
pdf.
[37] W. Chojnacki, M. J. Brooks, A. van den Hengel, and D. Gawley.
FNS, CFNS and HEIV: A unifying approach.
J. Math. Imaging Vision, 23(2):175-183, 2005.
pdf.
[38] W. Chojnacki, M. J. Brooks, A. van den Hengel, and D. Gawley.
A new constrained parameter estimator for computer vision applications.
Image and Vision Computing, 22(2):85-91, 2004.
pdf.
[39] W. Chojnacki, M. J. Brooks, A. van den Hengel, and D. Gawley.
From FNS to HEIV: A link between two vision parameter estimation methods.
IEEE Trans. Pattern Anal. Mach. Intell., 26(2):264-268, 2004.
pdf.
[40] W. Chojnacki, M. J. Brooks, A. van den Hengel, and D. Gawley.
A constrained parameter estimation approach for some vision problems.
In M. J. Brooks and K. Kanatani, editors, Proceedings of the Australia-Japan Advanced Workshop on Computer Vision, 9-11 September, 2003, Adelaide, Australia, pages 57-62. The Japan Society for the Promotion of Science, The Australian Government's Innovation Access Program, 2004.
pdf.
[41] D. W. Pooley, M. J. Brooks, A. J. van den Hengel, and W. Chojnacki.
A voting scheme for estimating the synchrony of moving-camera videos.
In Proceedings of the 2003 IEEE International Conference on Image Processing, September 14-17, 2003, Barcelona, Spain, volume 1, pages 413-416, Los Alamitos, CA, 2003. IEEE Computer Society Press.
pdf.
[42] W. Chojnacki, M. J. Brooks, A. van den Hengel, and D. Gawley.
A statistical rationalisation of Hartley's normalised eight-point algorithm.
In 12th International Conference on Image Analysis and Processing, Mantova, Italy, 17-19 September, 2003, pages 334-339, Los Alamitos, CA, 2003. IEEE Computer Society.
pdf | slides.
[43] W. Chojnacki, M. J. Brooks, A. van den Hengel, and D. Gawley.
Revisiting Hartley's normalized eight-point algorithm.
IEEE Trans. Pattern Anal. Mach. Intell., 25(9):1172-1177, 2003.
pdf.
[44] W. Chojnacki, M. J. Brooks, A. van den Hengel, and D. Gawley.
FNS, CFNS and HEIV: Extending three vision parameter estimation methods.
In C. Sun, H. Talbot, S. Ourselin, and T. Adriaansen, editors, Digital Image Computing: Techniques and Applications, Proceedings of the VIIth Biennial Australian Pattern Recognition Society Conference - DICTA 2003, volume 1, pages 449-458. CSIRO Publishing, 2003.
pdf.
[45] W. Chojnacki, M. J. Brooks, A. van den Hengel, and D. Gawley.
FNS and HEIV: relating two vision parameter estimation frameworks.
In 12th International Conference on Image Analysis and Processing, Mantova, Italy, 17-19 September, 2003, pages 152-157, Los Alamitos, CA, 2003. IEEE Computer Society.
pdf | slides.
[46] A. van den Hengel, W. Chojnacki, M. J. Brooks, and D. Gawley.
A new constrained parameter estimator: experiments in fundamental matrix computation.
In P. L. Rosin and D. Marshall, editors, Proceedings of the 13th British Machine Vision Conference, Cardiff, UK, 2-5 September, 2002, volume 2, pages 468-476. British Machine Vision Association, 2002.
pdf.
[47] W. Chojnacki, M. J. Brooks, A. van den Hengel, and D. Gawley.
A new approach to constrained parameter estimation applicable to some computer vision problems.
In D. Suter, editor, Proceedings of the Statistical Methods in Video Processing Workshop, Copenhagen, Denmark, June 1-2, 2002, pages 43-48, Clayton, Australia, 2002. Department of Electrical and Computer Systems Engineering, Monash University.
pdf.
[48] W. Chojnacki.
A generalization of the Widder-Arendt theorem.
Proc. Edinburgh Math. Soc., 45:161-179, 2002.
pdf | dvi.
[49] W. Chojnacki, M. J. Brooks, A. van den Hengel, and D. Gawley.
A fast MLE-based method for estimating the fundamental matrix.
In B. Mercer, editor, Proceedings of the 2001 IEEE International Conference on Image Processing (ICIP-01), Thessaloniki, Greece, 7-10 October, 2001, volume 2, pages 189-192. IEEE Computer Society, 2001.
pdf.
[50] W. Chojnacki, M. J. Brooks, and A. van den Hengel.
Rationalising the renormalisation method of Kanatani.
J. Math. Imaging Vision, 14(1):21-38, 2001.
pdf.
[51] M. J. Brooks, W. Chojnacki, D. Gawley, and A. van den Hengel.
What value covariance information in estimating vision parameters?
In Proceedings, Eighth IEEE International Conference of Computer Vision, Vancouver, British Columbia, Canada, July 7-14, 2001, volume 1, pages 302-308, Los Alamitos, CA, 2001. IEEE Computer Society.
pdf.
[52] M. J. Brooks, W. Chojnacki, D. Gawley, and A. van den Hengel.
Is covariance information useful in estimating vision parameters?
In S. F. El-Hakim and A. Gruen, editors, Videometrics and Optical Methods for 3D Shape Measurement, San Jose, California, USA, January 22-23, 2001, volume 4309 of Proceedings of SPIE, pages 195-203, 2001.
pdf.
[53] K. Kanatani, Y. Shimizu, N. Ohta, M. J. Brooks, W. Chojnacki, and A. van den Hengel.
Fundamental matrix from optical flow: optimal computation and reliability evaluation.
J. Electronic Imaging, 9(2):194-202, April 2000.
pdf.
[54] W. Chojnacki, M. J. Brooks, A. van den Hengel, and D. Gawley.
On the fitting of surfaces to data with covariances.
IEEE Trans. Pattern Anal. Mach. Intell., 22(11):1294-1303, 2000.
pdf.
[55] W. Chojnacki, M. J. Brooks, A. van den Hengel, and D. Gawley.
Estimating vision parameters given data with covariances.
In M. Mirmehdi and B. Thomas, editors, Proceedings of the 11th British Machine Vision Conference, Bristol, England, 11-14 September, 2000, volume 1, pages 182-191. BMVA Press, 2000.
pdf.
[56] W. Chojnacki, M. J. Brooks, and A. van den Hengel.
A simplified treatment of Kanatani's renormalisation method.
In Proceedings of the Sixth International Conference on Control, Automation, Robotics and Vision (ICARCV 2000), Marina Mandarin, Singapore, 5-8 December, 2000. School of Electrical and Electronic Enginnering, Nanyang Technological University Singapore, The Institution of Engineers, Singapore, IEEE Singapore Section, 2000.
pdf.
paper no. 196.
[57] W. Chojnacki, M. J. Brooks, and A. van den Hengel.
A framework for understanding renormalisation-type methods in computer vision.
In J. Blanc-Talon, D. Popescu, and G. E. Lasker, editors, Advanced Concepts for Intelligent Vision Systems (ACIVS'00), Baden-Baden, Germany, August 3-4, 2000, pages 13-19, Windsor, Ontario, Canada, 2000. The International Institute for Advanced Studies in Systems Research and Cybernetics.
pdf.
[58] W. Chojnacki, M. J. Brooks, and A. van den Hengel.
Rationalising Kanatani's method of renormalisation in computer vision.
In Statistical Methods for Image Processing, Uppsala, Sweden, August 6-9, 1999, pages 61-63. The International Association for Pattern Recognition, 1999.
pdf.
[59] W. Chojnacki.
Multiplier algebras, Banach bundles, and one-parameter semigroups.
Ann. Scuola Norm. Sup. Pisa Cl. Sci. (4), 28:287-322, 1999.
pdf | dvi.
[60] W. Chojnacki.
A characterisation of the circle group.
Collect. Math., 50(3):303-310, 1999.
pdf | dvi.
[61] M. J. Brooks, W. Chojnacki, A. Dick, A. van den Hengel, K. Kanatani, and N. Ohta.
Incorporating optical flow information into a self-calibration procedure for a moving camera.
In S. F. El-Hakim and A. Gruen, editors, Videometrics VI, San Jose, California, USA, January 28-29, 1999, volume 3641 of Proceedings of SPIE, pages 183-192, 1999.
pdf.
[62] W. Chojnacki and J. Kisy'nski.
On the Favard classes of semigroups associated with pseudo-resolvents.
Acta Sci. Math. (Szeged), 64:681-696, 1998.
pdf | dvi.
[63] W. Chojnacki, M. J. Brooks, and D. Gibbins.
On the feasibility of determining light-source direction from an image.
Quart. Appl. Math., 56(2):289-307, 1998.
pdf.
[64] W. Chojnacki.
On the equivalence of a theorem of Kisy'nski and the Hille-Yosida generation theorem.
Proc. Amer. Math. Soc., 126:491-497, 1998.
pdf | dvi.
[65] W. Chojnacki.
A new proof of a theorem concerning decomposable groups.
Glasnik Mat. Ser. III, 33:13-17, 1998.
pdf | dvi.
[66] M. J. Brooks, W. Chojnacki, L. Baumela, and A. van den Hengel.
Robust techniques for the estimation of structure from motion in the uncalibrated case.
In H. Burkhardt and B. Neumann, editors, Computer Vision-ECCV'98, Fifth European Conference on Computer Vision, Freiburg, Germany, June 2-6, 1998, volume 1406 of Lecture Notes in Computer Science, pages 281-295, Berlin, 1998. Springer-Verlag.
pdf.
[67] W. Chojnacki, M. J. Brooks, and D. Gibbins.
Can the sun's direction be estimated from an image prior to the computation of object shape?
J. Math. Imaging Vision, 7(2):139-147, 1997.
pdf.
[68] M. J. Brooks, W. Chojnacki, A. van den Hengel, and L. Baumela.
Estimation of structure from motion in the uncalibrated case.
In Proceedings of the IPSJ Workshop on Computer Vision and Image Media, Utsunomiya, Japan, November 1997, volume PRMU97-180 (1997-12) of Technical Report of IEICE, pages 49-56. The Institute of Electronics, Information and Communication Engineers, 1997.
pdf.
[69] M. J. Brooks, W. Chojnacki, A. van den Hengel, and L. Baumela.
3D reconstruction from optical flow generated by an uncalibrated camera undergoing unknown motion.
In H. Pan, M. J. Brooks, D. McMichael, and G. Newsam, editors, Image Analysis and Information Fusion, Proceedings of the International Workshop IAIF'97, Adelaide, Australia, 6-8 November, 1997, pages 35-42, The Levels, SA 5095, Australia, 1997. Cooperative Research Centre for Sensor Signal and Information Processing.
pdf.
[70] M. J. Brooks, W. Chojnacki, and L. Baumela.
Determining the egomotion of an uncalibrated camera from instantaneous optical flow.
J. Opt. Soc. Amer. A, 14(10):2670-2677, 1997.
pdf.
[71] M. J. Brooks, L. Baumela, and W. Chojnacki.
Egomotion from optical flow with an uncalibrated camera.
In J. Biemond and E. J. Delp, editors, Visual Communications and Image Processing '97, San Jose, CA, USA, February 12-14, 1997, volume 3024 of Proceedings of SPIE, pages 220-228, 1997.
pdf.
[72] W. Chojnacki.
Group representations of bounded cosine functions.
J. Reine Angew. Math., 478:61-84, 1996.
pdf-orig | pdf | dvi.
[73] D. Gibbins, M. Brooks, and W. Chojnacki.
Determining light-source direction from images of shading.
In P. Slezak, T. Caelli, and R. Clark, editors, Perspectives on Cognitive Science: Theories, Experiments and Foundations, chapter 9, pages 127-144. Ablex Publishing Corporation, Norwood, New Jersey, 1995.
pdf.
[74] W. Chojnacki.
A note on complete integrals.
Proc. Amer. Math. Soc., 123:393-401, 1995.
pdf | dvi.
[75] M. J. Brooks, W. Chojnacki, and A. van den Hengel.
Solving the shape-from-shading problem on the CM-5.
In V. Cantoni, L. Lombardi, M. Mosconi, M. Savini, and A. Setti, editors, Proceedings, CAMP'95, Computer Architectures and Machine Perception Conference, Como, Italy, September 18-20, 1995, pages 196-201, Los Alamitos, CA, 1995. IEEE Computer Society Press.
pdf.
[76] W. Chojnacki, M. J. Brooks, and D. Gibbins.
Revisiting Pentland's estimator of light source direction.
J. Opt. Soc. Amer. A, 11:118-124, 1994.
pdf.
[77] W. Chojnacki, M. J. Brooks, and D. Gibbins.
Can the sun's direction be estimated prior to the determination of shape?
In C. Zhang, J. Debenham, and D. Lukose, editors, Proceedings of the 7th Australian Joint Conference on Artificial Intelligence, Armidale, New South Wales, Australia, 21-25 November 1994, pages 530-535, Singapore, 1994. World Scientific.
pdf.
[78] M. J. Brooks and W. Chojnacki.
Direct computation of shape from shading.
In Proceedings of the 12th International Conference on Pattern Recognition, Jerusalem, Israel, October 9-13, 1994, pages 114-119, Los Alamitos, CA, 1994. IEEE Computer Society Press.
pdf.
[79] W. Chojnacki, M. J. Brooks, and D. Gibbins.
Estimating sun direction from a single image.
In A. Adams and L. Sterling, editors, Proceedings of the 5th Australian Joint Conference on Artificial Intelligence, Hobart, Tasmania, Australia, 16-18 November, 1992, pages 165-170, Singapore, 1992. World Scientific.
pdf.
[80] W. Chojnacki.
A generalized spectral duality theorem.
Comm. Math. Phys., 143:527-544, 1992.
pdf.
[81] W. Chojnacki.
Erratum: "Sur un théorème de Day, un théorème de Mazur-Orlicz et une généralisation de quelques théorèmes de Silverman" [Colloq. Math. textbf50 (1986), 257-262].
Colloq. Math., 63:139, 1992.
pdf.
[82] M. Brooks, W. Chojnacki, and R. Kozera.
Shading without shape.
Quart. Appl. Math., 50:27-38, 1992.
pdf.
[83] M. Brooks, W. Chojnacki, and R. Kozera.
Impossible and ambiguous shading patterns.
Int. J. Comput. Vision, 7:119-126, 1992.
pdf.
[84] M. Brooks, W. Chojnacki, and R. Kozera.
Circularly symmetric eikonal equations and non-uniqueness in computer vision.
J. Math. Anal. Appl., 165:192-215, 1992.
pdf.
[85] D. Gibbins, M. Brooks, and W. Chojnacki.
Light source direction from a single image: a performance analysis.
Austral. Comput. J., 24:165-174, 1991.
pdf.
[86] W. Chojnacki.
On the Bergman metric tensor.
Bull. Polish Acad. Sci. Math., 39:147-150, 1991.
pdf.
[87] W. Chojnacki.
Lifting Fourier-Stieltjes transforms and transferring cocycles.
Hokkaido Math. J., 20:503-518, 1991.
pdf.
[88] W. Chojnacki.
Eigenvalues of almost periodic Schrödinger operators in L2(bmathbfR) are at most double.
Lett. Math. Phys., 22:7-10, 1991.
pdf.
[89] M. Brooks, W. Chojnacki, and R. Kozera.
Recent existence and uniqueness results in shading analysis.
In G. Dziuk, G. Huisken, and J. Hutchinson, editors, Workshop on Theoretical and Numerical Aspects of Geometric Variational Methods, Canberra, 24-28 September, 1990, volume 26 of Proceedings of the Centre for Mathematics and Its Applications, pages 79-88. Australian National University, 1991.
pdf.
[90] W. Chojnacki.
On some totally ergodic functions.
Pacific J. Math., 144:1-14, 1990.
pdf.
[91] W. Chojnacki.
On some distal functions.
Colloq. Math., 58:301-304, 1990.
pdf | pdf | dvi.
[92] W. Chojnacki.
On some functionals on Bergman spaces.
Bull. Polish Acad. Sci. Math., 37:351-353, 1989.
pdf.
[93] W. Chojnacki.
Some non-trivial cocycles.
J. Funct. Anal., 77:9-31, 1988.
pdf.
[94] W. Chojnacki.
On some holomorphic dynamical systems.
Quart. J. Math. Oxford Ser. (2), 39:159-172, 1988.
pdf-orig | pdf [corrected] | dvi [corrected].
[95] W. Chojnacki.
On some functional equation generalizing Cauchy's and d'Alembert's functional equations.
Colloq. Math., 55:169-178, 1988.
pdf.
[96] W. Chojnacki.
Weak compactness and summability.
Math. Slovaca, 37:85-87, 1987.
pdf-orig | pdf | dvi.
[97] W. Chojnacki.
Spectral analysis of Schrödinger operators in non-separable Hilbert spaces.
In Pedro Morales and Gerald W. Johnson, editors, Functional Integration with Emphasis on the Feynman Integral, Sherbrooke, Quebec, Canada, July 21-31, 1986, volume 17 of Rend. Circ. Mat. Palermo (2) Suppl., pages 135-151, 1987.
pdf.
[98] W. Chojnacki.
Cocycles and almost periodicity.
J. London Math. Soc. (2), 35:98-108, 1987.
pdf.
[99] W. Chojnacki.
Sur un théorème de Day, un théorème de Mazur-Orlicz et une généralisation de quelques théorèmes de Silverman.
Colloq. Math., 50:256-262, 1986.
pdf | dvi | [corrected].
[100] W. Chojnacki.
Fonctions cosinus hilbertiennes bornées dans les groupes commutatifs localement compacts.
Compositio Math., 57:15-60, 1986.
pdf.
[101] W. Chojnacki.
Almost periodic Schrödinger operators in L2(bmathbfR) whose point spectrum in not all of the spectrum.
J. Funct. Anal., 65:236-242, 1986.
pdf.
[102] W. Chojnacki.
Sur certains éléments ergodiques dans linfinity(G).
Colloq. Math., 50:121-124, 1985.
pdf.
[103] W. Chojnacki.
The generalized spectral analysis of i-1d/dx + q with real almost periodic q, with applications to harmonic analysis.
Rend. Mat. (7), 4:221-240, 1984.
pdf.
[104] W. Chojnacki.
An analogue of the argument theorem of Bohr and its application.
Studia Math., 79:51-59, 1984.
pdf.
[105] W. Chojnacki.
On projections of Linfinity(G) onto translation-invariant subspaces.
Colloq. Math., 39:361-365, 1978.
pdf.
[106] W. Chojnacki.
On Banach algebras which are Hilbert spaces.
Ann. Soc. Math. Polon. Ser. I Comment. Math. Prace Mat., 20:279-281, 1978.
pdf | pdf | dvi.

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