Fri, 03 May 2024 09:13:05 -0500
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5 | 1 | #################################################################### |
2 | # Predictive online PDPS for optical flow with known velocity field | |
3 | #################################################################### | |
4 | ||
5 | __precompile__() | |
6 | ||
36 | 7 | module AlgorithmNew |
5 | 8 | |
36 | 9 | # Default identifier for when none is given by predictor |
10 | identifier = "pdps_known_noprediction" | |
5 | 11 | |
12 | using Printf | |
13 | ||
14 | using AlgTools.Util | |
15 | import AlgTools.Iterate | |
16 | using ImageTools.Gradient | |
17 | ||
18 | using ..OpticalFlow: ImageSize, | |
19 | Image, | |
36 | 20 | pdflow! |
5 | 21 | |
22 | ######################### | |
23 | # Iterate initialisation | |
24 | ######################### | |
25 | ||
26 | function init_rest(x::Image) | |
27 | imdim=size(x) | |
28 | ||
29 | y = zeros(2, imdim...) | |
30 | Δx = copy(x) | |
31 | Δy = copy(y) | |
32 | x̄ = copy(x) | |
33 | ||
34 | return x, y, Δx, Δy, x̄ | |
35 | end | |
36 | ||
37 | function init_iterates(xinit::Image) | |
38 | return init_rest(copy(xinit)) | |
39 | end | |
40 | ||
41 | function init_iterates(dim::ImageSize) | |
42 | return init_rest(zeros(dim...)) | |
43 | end | |
44 | ||
45 | ############ | |
46 | # Algorithm | |
47 | ############ | |
48 | ||
49 | function solve( :: Type{DisplacementT}; | |
50 | dim :: ImageSize, | |
51 | iterate = AlgTools.simple_iterate, | |
52 | params::NamedTuple) where DisplacementT | |
53 | ||
35 | 54 | ################################ |
5 | 55 | # Extract and set up parameters |
35 | 56 | ################################ |
5 | 57 | |
58 | α, ρ = params.α, params.ρ | |
59 | R_K² = ∇₂_norm₂₂_est² | |
60 | γ = 1.0 | |
61 | Λ = params.Λ | |
62 | τ₀, σ₀ = params.τ₀, params.σ₀ | |
63 | ||
64 | τ = τ₀/γ | |
65 | @assert(1+γ*τ ≥ Λ) | |
66 | σ = σ₀*1/(τ*R_K²) | |
67 | ||
68 | println("Step length parameters: τ=$(τ), σ=$(σ)") | |
69 | ||
70 | ###################### | |
71 | # Initialise iterates | |
72 | ###################### | |
73 | ||
74 | x, y, Δx, Δy, x̄ = init_iterates(dim) | |
75 | init_data = (params.init == :data) | |
76 | ||
77 | #################### | |
78 | # Run the algorithm | |
79 | #################### | |
80 | ||
81 | v = iterate(params) do verbose :: Function, | |
82 | b :: Image, | |
83 | v_known :: DisplacementT, | |
84 | 🚫unused_b_next :: Image | |
85 | ||
86 | ################## | |
87 | # Prediction step | |
88 | ################## | |
89 | if init_data | |
90 | x .= b | |
91 | init_data = false | |
92 | end | |
93 | ||
36 | 94 | if haskey(params, :predictor) && ~isnothing(params.predictor) |
95 | pdflow!(x, Δx, y, Δy, v_known, params.predictor) | |
96 | end | |
5 | 97 | |
98 | ############ | |
99 | # PDPS step | |
100 | ############ | |
101 | ||
102 | ∇₂ᵀ!(Δx, y) # primal step: | |
103 | @. x̄ = x # | save old x for over-relax | |
104 | @. x = (x-τ*(Δx-b))/(1+τ) # | prox | |
105 | @. x̄ = 2x - x̄ # over-relax | |
106 | ∇₂!(Δy, x̄) # dual step: y | |
107 | @. y = (y + σ*Δy)/(1 + σ*ρ/α) # | | |
108 | proj_norm₂₁ball!(y, α) # | prox | |
109 | ||
110 | ################################ | |
111 | # Give function value if needed | |
112 | ################################ | |
35 | 113 | v = verbose() do |
5 | 114 | ∇₂!(Δy, x) |
115 | value = norm₂²(b-x)/2 + params.α*γnorm₂₁(Δy, params.ρ) | |
116 | value, x, [NaN, NaN], nothing | |
117 | end | |
118 | ||
119 | v | |
120 | end | |
121 | ||
122 | return x, y, v | |
123 | end | |
124 | ||
125 | end # Module | |
126 | ||
127 |