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implementation of the interactive data language, idl, particle tracking software  (MathWorks Inc)


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    MathWorks Inc implementation of the interactive data language, idl, particle tracking software
    Particle Tracking Process—describes the particle tracking process. ( a ) shows a dry milli-channel of cross-section A = 515 × 315 μ m 2 and length L = 13.268 mm with a 300 × 700 μ m 2 TMP resistor placed 1027 μ m from the reservoir edge. ( b ) shows neutrally buoyant micro-spheres with a diameter of D = 27–32 μ m in a channel filled with water. <t>A</t> <t>MATLAB</t> implementation of the interactive data language, <t>IDL,</t> particle tracking software is used to mark particles ( c ) and link particle movement into trajectories ( d ). Particle trajectories are colored in accordance to average velocity in which the fastest moving particles (shown in yellow with a velocity of 19.2 μ m/pulse) are near the center of the channel while the slowest (shown in blue with a velocity of less than 1 μ m/pulse) are towards the walls.
    Implementation Of The Interactive Data Language, Idl, Particle Tracking Software, supplied by MathWorks 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/implementation of the interactive data language, idl, particle tracking software/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    implementation of the interactive data language, idl, particle tracking software - by Bioz Stars, 2026-04
    90/100 stars

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    1) Product Images from "Rapid Fabrication of Low-Cost Thermal Bubble-Driven Micro-Pumps"

    Article Title: Rapid Fabrication of Low-Cost Thermal Bubble-Driven Micro-Pumps

    Journal: Micromachines

    doi: 10.3390/mi13101634

    Particle Tracking Process—describes the particle tracking process. ( a ) shows a dry milli-channel of cross-section A = 515 × 315 μ m 2 and length L = 13.268 mm with a 300 × 700 μ m 2 TMP resistor placed 1027 μ m from the reservoir edge. ( b ) shows neutrally buoyant micro-spheres with a diameter of D = 27–32 μ m in a channel filled with water. A MATLAB implementation of the interactive data language, IDL, particle tracking software is used to mark particles ( c ) and link particle movement into trajectories ( d ). Particle trajectories are colored in accordance to average velocity in which the fastest moving particles (shown in yellow with a velocity of 19.2 μ m/pulse) are near the center of the channel while the slowest (shown in blue with a velocity of less than 1 μ m/pulse) are towards the walls.
    Figure Legend Snippet: Particle Tracking Process—describes the particle tracking process. ( a ) shows a dry milli-channel of cross-section A = 515 × 315 μ m 2 and length L = 13.268 mm with a 300 × 700 μ m 2 TMP resistor placed 1027 μ m from the reservoir edge. ( b ) shows neutrally buoyant micro-spheres with a diameter of D = 27–32 μ m in a channel filled with water. A MATLAB implementation of the interactive data language, IDL, particle tracking software is used to mark particles ( c ) and link particle movement into trajectories ( d ). Particle trajectories are colored in accordance to average velocity in which the fastest moving particles (shown in yellow with a velocity of 19.2 μ m/pulse) are near the center of the channel while the slowest (shown in blue with a velocity of less than 1 μ m/pulse) are towards the walls.

    Techniques Used: Software



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    implementation of the interactive data language, idl, particle tracking software  (MathWorks Inc)
    90
    MathWorks Inc implementation of the interactive data language, idl, particle tracking software
    Particle Tracking Process—describes the particle tracking process. ( a ) shows a dry milli-channel of cross-section A = 515 × 315 μ m 2 and length L = 13.268 mm with a 300 × 700 μ m 2 TMP resistor placed 1027 μ m from the reservoir edge. ( b ) shows neutrally buoyant micro-spheres with a diameter of D = 27–32 μ m in a channel filled with water. <t>A</t> <t>MATLAB</t> implementation of the interactive data language, <t>IDL,</t> particle tracking software is used to mark particles ( c ) and link particle movement into trajectories ( d ). Particle trajectories are colored in accordance to average velocity in which the fastest moving particles (shown in yellow with a velocity of 19.2 μ m/pulse) are near the center of the channel while the slowest (shown in blue with a velocity of less than 1 μ m/pulse) are towards the walls.
    Implementation Of The Interactive Data Language, Idl, Particle Tracking Software, supplied by MathWorks 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/implementation of the interactive data language, idl, particle tracking software/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    implementation of the interactive data language, idl, particle tracking software - by Bioz Stars, 2026-04
    90/100 stars
    		  Buy from Supplier

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    Particle Tracking Process—describes the particle tracking process. ( a ) shows a dry milli-channel of cross-section A = 515 × 315 μ m 2 and length L = 13.268 mm with a 300 × 700 μ m 2 TMP resistor placed 1027 μ m from the reservoir edge. ( b ) shows neutrally buoyant micro-spheres with a diameter of D = 27–32 μ m in a channel filled with water. A MATLAB implementation of the interactive data language, IDL, particle tracking software is used to mark particles ( c ) and link particle movement into trajectories ( d ). Particle trajectories are colored in accordance to average velocity in which the fastest moving particles (shown in yellow with a velocity of 19.2 μ m/pulse) are near the center of the channel while the slowest (shown in blue with a velocity of less than 1 μ m/pulse) are towards the walls.

    Journal: Micromachines

    Article Title: Rapid Fabrication of Low-Cost Thermal Bubble-Driven Micro-Pumps

    doi: 10.3390/mi13101634

    Figure Lengend Snippet: Particle Tracking Process—describes the particle tracking process. ( a ) shows a dry milli-channel of cross-section A = 515 × 315 μ m 2 and length L = 13.268 mm with a 300 × 700 μ m 2 TMP resistor placed 1027 μ m from the reservoir edge. ( b ) shows neutrally buoyant micro-spheres with a diameter of D = 27–32 μ m in a channel filled with water. A MATLAB implementation of the interactive data language, IDL, particle tracking software is used to mark particles ( c ) and link particle movement into trajectories ( d ). Particle trajectories are colored in accordance to average velocity in which the fastest moving particles (shown in yellow with a velocity of 19.2 μ m/pulse) are near the center of the channel while the slowest (shown in blue with a velocity of less than 1 μ m/pulse) are towards the walls.

    Article Snippet: A MATLAB implementation of the interactive data language, IDL, particle tracking software [ ] was used to identify and track particle movement. illustrates the particle tracking process.

    Techniques: Software