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Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET PDF Download

Linear algebra

  • Linear algebra textbooks typically study vector spaces and linear transformations between them.
  • Introduce bases, and one has matrix representations of the linear transformations. Under change of bases, the matrix representions change. How? Can one choose particular bases so that the corresponding matrix has some simple form?
  • Linear transformations from a space into itself. Similarity: A → SAS -1

Matrix analysis (complex matrices, sometimes real)

  • Includes all of linear algebra, and more....
  • What can be said about the semigroup of square matrices, all of whose entries are positive (nonnegative)?
  • What about matrices all of whose submatrices have positive determinant? (totally positive matrices)
  • What about matrices all of whose principal submatrices have positive determinant? (P-matrices )
  • Is there anything interesting about the matrix product A º B = [aij bij]? (the Hadamard product, a.k.a. the sophomore product)
  • Matrix norms
  • Functions of matrices, e.g., monotone or Hadamard matrix functions

Some fundamental facts

  • (0.2.6) Matrix multiplication is not just Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET (inner products)
    • AB = [A col1 (B) . . . A coln (B)] (A acts on columns of B 
    • Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET (B acts on rows of A)
    • Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET
  • (0.6.5) Any set of orthonormal vectors can be extended to an orthonormal basis.
  • (0.7.2) Manipulation of block matrices, especially 2-by-2.
  • (1.3.22) Eigenvalues of AB and BA
  • If AB = BA (or AB = AT B , or AB = Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET oand if B has some special structure, then A probably has some special structure, too.
  • A matrix A can be factored as A = BCD in many ways. Often the key to solving a matrix analysis problem is choosing a suitable factorization.

What does a matrix represent?

  • A matrix A can be just a table of incoherent data, e.g., 20 rows, one for each of the constitutional regions of Italy; columns for total 2008 consumption of electric power, hectares of irrigated land, number of school children under age of 9, acres of parkland, miles of unpaved road, etc.
  • A can be a table of coherent measurements that could be transformed in some way without destroying the basic information, e.g., spacecraft location or orientation data.
  • A can summarize information about pairs of nodes on a graph, e.g., connection (No, Yes), directed connection (No, Which way?), capacity of a connection, etc.
  • A can describe a linear algebraic object with respect to a given basis, e.g., a linear transformation, semilinear transformation, bilinear form, sesquilinear form, etc.

Many matrices can represent the same thing

  • Spacecraft data: A → UAV (real orthogonal U and V : real orthogonal equivalence)
  • Graph data: A → PAPT (permutation P ; re-label nodes)
  • Linear transformation: A → SAS -1 (similarity: change basis)
  • Semilinear transformation: A → SACanonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET(consimilarity: change basis)
  • Bilyinear form x T Ay : A → ST AS (congruence: change basis → Sx , Sy)
  • Bilinear form xT Ay : A → U T AU (unitary congruence: change from one orthonormal basis to another x , y → Ux , Uy , U * U = I)
  • Bilinear form xT Ay : A → QT AQ (orthogonal congruence: change from one rectanormal basis to another x , y → Qx , Qy , QT Q = I)
  • Sesquilinear form x * Ay : A → S * AS (*congruence; conjunctivity: change basis x , y → Sx , Sy)
  • Sesquilinear form x * Ay : A → U * AU (unitary *congruenc: hange from one orthonormal basis to another x , y → Ux , Uy) 

Equivalence relations and subgroups

  • M, N are given subgroups of GLn (nonsingular, possibly di¤erent). Say that A ~ B if there is some M ∈ M and some N ∈ N such that B = MAN)
    • ~ is reflexive: A = IAI
    • ~ is symmetric: B = MAN) ⇒ A = M-1BN-1
    • ~ is transitive: If B = M1 AN1 and A = M2 CN2, then
      B = M1 (M2 CN2) N1 = (M1 M2) C (N2N1)
  • Examples: GLn, unitary group, real orthogonal group, complex orthogonal group, permutation group, group of nonsingular diagonal matrices, group of diagonal unitary matrices, group of diagonal real orthogonal matrices,....
  • We might want to insist that N = f (M), but must have f (I) = I, f(M-1) = f(M)-1 and f(M1M2) = f(M2)f(M1)
  • Examples: f (M) = M -1 , Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET  = M * (but not f (M) = Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET or f (M) = M-)

The canonical form problem

  • For a given equivalence relation, identify one distinguished (canonical) matrix in each equivalence class.
  • Canonical matrices must be indecomposable under the equivalence relation.
  • Two matrices are equivalent if and only if they are both equivalent to the same canonical matrix.
  • Typically, a canonical matrix is a direct sum of indecomposable blocks with special structure.
  • Sometimes the canonical form problem has a satisfactory solution (similarity or congruence), but sometimes it does not (unitary or complex orthogonal similarity).
  • Rank is always an invariant: B = MAN ⇒ rank A = rank B
  • Rank might be the only invariant: For M = N = GLn (nonsingular equivalence) B = MAN if and only if rank A = rank B

The QR factorization

  • (2.1.14) A ∈ Mn,m with n > m
  • A = QR in which
  • QR =2 M[r n,m and Q * Q = Im (orthonormal columns)
  • R = [rij] ∈Mm is upper triangular and all rii > 0
  • If rank A = m, then Q and R are uniquely determined and all rii > 0.
  • If m = n, then Q is unitary.
  • If A is real, then Q and R may be taken to be real.
  • proof idea if rank A = m: Apply Gram-Schmidt process (0.6.4) to the columns of A, working from left to right.
  • Equivalent version of Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET is unitary and  Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET is upper triangular.
  • Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET
  • Typically used as: Qˆ * A is upper triangular 

Unitary similarity: Schur triangularization

  • (2.3.1) Let λ1 , . . . , λn be the eigenvalues of A ∈ Mn in any given order. There is a unitary U ∈ Mn such that A = UTU * in which is upper triangular with diagonal entries tii = λi , i = 1, . . . , n.
    Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET
  • proof: Let Ax = λ1 x and x * x = 1. Let U = [x u2 . . . un] be unitary.
  • The …fIrst column of U * AU is U * Ax = λU * x = λ[x * x u*2 x . . . u*nx]T = λ[1 0 . . . 0]T , so
    Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET
  • Repeat the reduction on A1 , etc.

Schur triangularization: Some consequences

  • (2.4.1) det A = λ1 ...λn and tr A = λ1 + .... + λn
  • (2.4.3) Cayley-Hamilton Theorem: pA(t) := det(tI - A), pA (A) = 0
  • (2.4.4) Sylvester’s Theorem on linear matrix equations: If B and C have no eigenvalues in common, then XB - CX = Y has a unique solution X for each given Y . In particular, if XB - CX = 0 then X = 0.
  • (2.4.5) Uniqueness of Schur triangularization: Suppose that λ1, . . . , λd are distinct and Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET and Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET are upper triangular, unitarily similar, and have the same main diagonal as Λ, then there is a block diagonal unitary matrix Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET conformal to Λ such that Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET that is, Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET for all i , j (unitary equivalence ).
The document Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET is a part of the Mathematics Course Mathematics for IIT JAM, GATE, CSIR NET, UGC NET.
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FAQs on Canonical Forms : Diagonal Forms, Triangular Forms, Jordan Forms - CSIR-NET Mathematical Sciences - Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

1. What is the diagonal form of a matrix?
Ans. The diagonal form of a matrix is a special form in which all the non-diagonal elements are zero. It is obtained by diagonalizing the matrix, which means finding a similarity transformation that transforms the original matrix into a diagonal matrix.
2. How is the triangular form of a matrix different from the diagonal form?
Ans. The triangular form of a matrix is a special form in which all the elements below (or above) the main diagonal are zero. Unlike the diagonal form, the triangular form does not require all the non-diagonal elements to be zero. It can be obtained by performing row (or column) operations to eliminate the non-zero elements below (or above) the main diagonal.
3. What is the Jordan form of a matrix?
Ans. The Jordan form of a matrix is a special form that represents a matrix in terms of its Jordan blocks. A Jordan block is a square matrix with a constant value on its main diagonal and ones on the superdiagonal (the diagonal above the main diagonal). The Jordan form is useful for studying the properties and behavior of a matrix, especially when it is not diagonalizable.
4. How can diagonal forms, triangular forms, and Jordan forms be used in mathematical sciences?
Ans. Diagonal forms, triangular forms, and Jordan forms have various applications in mathematical sciences. They are used in linear algebra to simplify matrix computations, solve systems of linear equations, and study the properties of linear transformations. These forms also play a crucial role in areas such as physics, engineering, computer science, and data analysis, where matrices and linear transformations are extensively used.
5. Can any matrix be transformed into a diagonal form, triangular form, or Jordan form?
Ans. Not every matrix can be transformed into a diagonal form or triangular form. Diagonalization is only possible for matrices that are diagonalizable, which means they have a complete set of linearly independent eigenvectors. Similarly, the triangular form can only be achieved for matrices that can be reduced to an upper triangular or lower triangular form through row or column operations. The Jordan form, on the other hand, can be obtained for any matrix by performing a suitable similarity transformation.
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