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    COMSOL Inc 3d time-domain numerical model
    3d Time Domain Numerical Model, supplied by COMSOL Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/3d time-domain numerical model/product/COMSOL Inc
    Average 90 stars, based on 1 article reviews
    3d time-domain numerical model - by Bioz Stars, 2026-04
    90/100 stars

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    Schematic diagram of the ultrasound modulated electroencephalography (USMEEG) principle. EEG, electroencephalography; tFUS, transcranial focused ultrasound; Chan., channel.

    Journal: Cyborg and Bionic Systems

    Article Title: Noninvasive Intracranial Source Signal Localization and Decoding with High Spatiotemporal Resolution

    doi: 10.34133/cbsystems.0206

    Figure Lengend Snippet: Schematic diagram of the ultrasound modulated electroencephalography (USMEEG) principle. EEG, electroencephalography; tFUS, transcranial focused ultrasound; Chan., channel.

    Article Snippet: The 3D transcranial single-source dipole numerical simulation model was constructed based on the above skull model and COMSOL 6.0 as shown in Fig. B1, and the ultrasound raster scanning area is shown in Fig. B2, with the yellow star shape as the neuron setting position and the red dots as the ultrasound irradiation point positions.

    Techniques:

    Schematic of the flow of the decoding and localization algorithm for acoustoelectric signals, 3D transcranial single-source dipole localization simulation model, and schematic diagram of the ultrasound irradiation strategy and electrocorticography (ECoG) signal compared to the fitted signal. (A1) Flowchart of the envelope decoding and localization algorithm . (A2) Flowchart of the pulse repetition frequency (PRF) sideband localization algorithm. (B1) Numerical simulation model. (B2) Schematic diagram of the ultrasound irradiation strategy. (C1) S1 analog source signal. (C2) S2 analog source signal. (C3) S3 analog source signal. (C4) S4 analog source signal. AE, acoustoelectric effect.

    Journal: Cyborg and Bionic Systems

    Article Title: Noninvasive Intracranial Source Signal Localization and Decoding with High Spatiotemporal Resolution

    doi: 10.34133/cbsystems.0206

    Figure Lengend Snippet: Schematic of the flow of the decoding and localization algorithm for acoustoelectric signals, 3D transcranial single-source dipole localization simulation model, and schematic diagram of the ultrasound irradiation strategy and electrocorticography (ECoG) signal compared to the fitted signal. (A1) Flowchart of the envelope decoding and localization algorithm . (A2) Flowchart of the pulse repetition frequency (PRF) sideband localization algorithm. (B1) Numerical simulation model. (B2) Schematic diagram of the ultrasound irradiation strategy. (C1) S1 analog source signal. (C2) S2 analog source signal. (C3) S3 analog source signal. (C4) S4 analog source signal. AE, acoustoelectric effect.

    Article Snippet: The 3D transcranial single-source dipole numerical simulation model was constructed based on the above skull model and COMSOL 6.0 as shown in Fig. B1, and the ultrasound raster scanning area is shown in Fig. B2, with the yellow star shape as the neuron setting position and the red dots as the ultrasound irradiation point positions.

    Techniques: Irradiation

    (A) Schematic of the delay distribution of the array elements (the darker the color, the higher the delay). (B) Acoustic pressure field before and after transcranial modulation. (C) Comparison results of the focal acoustic pressure and mechanical index (MI). (D) Distribution of transcranial TR-modulated onset temperature field.

    Journal: Cyborg and Bionic Systems

    Article Title: Noninvasive Intracranial Source Signal Localization and Decoding with High Spatiotemporal Resolution

    doi: 10.34133/cbsystems.0206

    Figure Lengend Snippet: (A) Schematic of the delay distribution of the array elements (the darker the color, the higher the delay). (B) Acoustic pressure field before and after transcranial modulation. (C) Comparison results of the focal acoustic pressure and mechanical index (MI). (D) Distribution of transcranial TR-modulated onset temperature field.

    Article Snippet: The 3D transcranial single-source dipole numerical simulation model was constructed based on the above skull model and COMSOL 6.0 as shown in Fig. B1, and the ultrasound raster scanning area is shown in Fig. B2, with the yellow star shape as the neuron setting position and the red dots as the ultrasound irradiation point positions.

    Techniques: Comparison

    Focal acoustic pressure and MI for each modulation method

    Journal: Cyborg and Bionic Systems

    Article Title: Noninvasive Intracranial Source Signal Localization and Decoding with High Spatiotemporal Resolution

    doi: 10.34133/cbsystems.0206

    Figure Lengend Snippet: Focal acoustic pressure and MI for each modulation method

    Article Snippet: The 3D transcranial single-source dipole numerical simulation model was constructed based on the above skull model and COMSOL 6.0 as shown in Fig. B1, and the ultrasound raster scanning area is shown in Fig. B2, with the yellow star shape as the neuron setting position and the red dots as the ultrasound irradiation point positions.

    Techniques: