Electron Tomography — tilt-series 3D reconstruction L1-086

Electron MicroscopyTilt-series TEM for 3D cellular structureδ=5 · challengingL_DAG = 3.8📋 Stub — not mineable

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Unclaimed Principle — open for contribution

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Forward model E

y_{t} h e t a (r) = in t e g r a l a l o n g r a y a t an g l e t h e t a [r h o (r)] \cdot e n v e l o p e; mi ss in g w e d g e a t + / - 60 t o 70 d e g

Electron Tomography — tilt-series 3D reconstruction: electron transmission produces the measurement through a 4-node primitive DAG L.transmit_sample -> S.scan.angular -> L.backproject -> int.angular, with multi-angle tomographic integration and photon-shot-noise-limited (Poisson counting). Recovery is posed as a linear inverse problem that inverts the forward operator to estimate the scene-side 3D density. Difficulty tier delta=5 with effective condition number kappa_eff~20; calibration-level mismatch (tilt_angle_error, missing_wedge, beam_damage) sets the accuracy floor at the Omega boundary. See the forward_model field for the closed-form imaging equation.

L-DAG

L.transmit_sample -> S.scan.angular -> L.backproject -> int.angular

L.transmit_sampleS.scan.angularL.backprojectint.angular

Well-posedness W

Existence:: true
Uniqueness:: true
Stability:: conditional
κ:: 400

Existence of the recovered 3D density is guaranteed within the declared Omega bounds. Uniqueness holds on the measurement-supported subspace; out-of-support modes are controlled by the declared priors. Stability is moderately conditioned (kappa_eff ~= 20); tilt_angle_error dominates the stability cliff; missing_wedge and the remaining mismatch parameters contribute higher-order bias terms. Photon-shot-noise-limited (poisson counting) sets the irreducible data-fidelity floor, while TV / wavelet-sparsity / deep priors stabilise recovery at the ill-conditioned end of Omega.

Solvability C

Solver class:: linear-operator + convex optimisation [WBP] | iterative projection (ADMM / GAP) + optimisation [SIRT] | linear-operator + deep neural prior [IsoNet]
Convergence rate q:: 2
Complexity:: O(H * W * Z * log(...)) per iteration; learned variants: O(H W Z * F_theta_cost) per forward pass

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