Extension and Interpolation of Linear Operators and Matrix Functions
Prof. Israel . Ed(S): Gohberg
€ 68.98
FREE Delivery in Ireland
Description for Extension and Interpolation of Linear Operators and Matrix Functions
Paperback. Editor(s): Gohberg, Prof. Israel. Num Pages: 312 pages, black & white illustrations. BIC Classification: PBK. Category: (P) Professional & Scholarly; (UP) Postgraduate; (UU) Undergraduate. Dimension: 229 x 152 x 16. Weight in Grams: 425.
The classicallossless inverse scattering (LIS) problem of network theory is to find all possible representations of a given Schur function s(z) (i. e. , a function which is analytic and contractive in the open unit disc D) in terms of an appropriately restricted class of linear fractional transformations. These linear fractional transformations corre- spond to lossless, causal, time-invariant two port networks and from this point of view, s(z) may be interpreted as the input transfer function of such a network with a suitable load. More precisely, the sought for representation is of the form s(Z) = -{ -A(Z)SL(Z) + B(z)}{ ... Read more
The classicallossless inverse scattering (LIS) problem of network theory is to find all possible representations of a given Schur function s(z) (i. e. , a function which is analytic and contractive in the open unit disc D) in terms of an appropriately restricted class of linear fractional transformations. These linear fractional transformations corre- spond to lossless, causal, time-invariant two port networks and from this point of view, s(z) may be interpreted as the input transfer function of such a network with a suitable load. More precisely, the sought for representation is of the form s(Z) = -{ -A(Z)SL(Z) + B(z)}{ ... Read more
Product Details
Format
Paperback
Publication date
1990
Publisher
Birkhauser Verlag AG Switzerland
Number of pages
312
Condition
New
Number of Pages
305
Place of Publication
Basel, Switzerland
ISBN
9783764325305
SKU
V9783764325305
Shipping Time
Usually ships in 15 to 20 working days
Ref
99-15
Reviews for Extension and Interpolation of Linear Operators and Matrix Functions