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curve fitting matlab code  (MathWorks Inc)


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    MathWorks Inc curve fitting matlab code
    Curve Fitting Matlab Code, 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/curve fitting matlab code/product/MathWorks Inc
    Average 90 stars, based on 1 article reviews
    curve fitting matlab code - by Bioz Stars, 2026-03
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    Representative O 2 pressure profiles drawn from datasets v4 (first two columns) and v5 (third column). Profiles ( a , b , d , f ) show a gradient discontinuity at the lower boundary; profiles ( c , e ) do not. Negative/positive locations correspond to points lying above/below the x = 0 line of symmetry. Key: × = sample values; ⊗ = samples selected for 9-point in-tissue curve-fit (parabola or <t>paracosh);</t> dashed-green = extrapolation of parabola/paracosh curve into fluid layers above (left) and below (right) the tissue–fluid interface; dashed-red = tangent to curve at boundary with slope ( ∂ P / ∂ x ) | x = L [mmHg/ μ m]; solid-black linear segments identify linear pressure trends in proximal fluid layer; ‘Curv’ = 10 3 × curvature = 10 3 × ( 2 a ) [mmHg/ μ m 2 ]. Gradient ratios ‘slopeL/tang’, ‘slopeR/tang’ give estimates for above-slice, below-slice ( K t / K f ) Krogh ratios; ratios exceeding cutoff value 0.725 are rejected.
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    Representative O 2 pressure profiles drawn from datasets v4 (first two columns) and v5 (third column). Profiles ( a , b , d , f ) show a gradient discontinuity at the lower boundary; profiles ( c , e ) do not. Negative/positive locations correspond to points lying above/below the x = 0 line of symmetry. Key: × = sample values; ⊗ = samples selected for 9-point in-tissue curve-fit (parabola or paracosh); dashed-green = extrapolation of parabola/paracosh curve into fluid layers above (left) and below (right) the tissue–fluid interface; dashed-red = tangent to curve at boundary with slope ( ∂ P / ∂ x ) | x = L [mmHg/ μ m]; solid-black linear segments identify linear pressure trends in proximal fluid layer; ‘Curv’ = 10 3 × curvature = 10 3 × ( 2 a ) [mmHg/ μ m 2 ]. Gradient ratios ‘slopeL/tang’, ‘slopeR/tang’ give estimates for above-slice, below-slice ( K t / K f ) Krogh ratios; ratios exceeding cutoff value 0.725 are rejected.

    Journal: International Journal of Molecular Sciences

    Article Title: Determination of Krogh Coefficient for Oxygen Consumption Measurement from Thin Slices of Rodent Cortical Tissue Using a Fick’s Law Model of Diffusion

    doi: 10.3390/ijms24076450

    Figure Lengend Snippet: Representative O 2 pressure profiles drawn from datasets v4 (first two columns) and v5 (third column). Profiles ( a , b , d , f ) show a gradient discontinuity at the lower boundary; profiles ( c , e ) do not. Negative/positive locations correspond to points lying above/below the x = 0 line of symmetry. Key: × = sample values; ⊗ = samples selected for 9-point in-tissue curve-fit (parabola or paracosh); dashed-green = extrapolation of parabola/paracosh curve into fluid layers above (left) and below (right) the tissue–fluid interface; dashed-red = tangent to curve at boundary with slope ( ∂ P / ∂ x ) | x = L [mmHg/ μ m]; solid-black linear segments identify linear pressure trends in proximal fluid layer; ‘Curv’ = 10 3 × curvature = 10 3 × ( 2 a ) [mmHg/ μ m 2 ]. Gradient ratios ‘slopeL/tang’, ‘slopeR/tang’ give estimates for above-slice, below-slice ( K t / K f ) Krogh ratios; ratios exceeding cutoff value 0.725 are rejected.

    Article Snippet: The Matlab paracosh curve-fitting codes plus associated sample pO 2 depth profiles will be supplied on request to the corresponding author (D.A.S.-R.).

    Techniques:

    Summary table for 47 pO 2 pressure profiles. ‘Ref’ = vnn where v = [3, 4, 5] identifies dataset, nn = profile index; ‘Flow’ = aCSF flow rate [mL/min]; ‘Flat’ = flag indicating paracosh (1) or parabolic (0) fit; ‘rmse’ = rms error for curve fit [mmHg]; ‘Curvature’ = 10 3 × ( 2 a ) [mmHg/ μ m 2 ]; P s = fitted surface pressure at x = L boundary [mmHg]; P min = fitted pressure at x = 0 [mmHg]; ‘Tangent’ = ( ∂ P / ∂ x ) | x = L [mmHg/ μ m]; ‘Ratio (top)’, ‘Ratio (bot)’ = Krogh ratio ( K t / K f ) at upper, lower interface. NB: Values in [brackets] are to be disregarded (existence of stationary layer is implausible).

    Journal: International Journal of Molecular Sciences

    Article Title: Determination of Krogh Coefficient for Oxygen Consumption Measurement from Thin Slices of Rodent Cortical Tissue Using a Fick’s Law Model of Diffusion

    doi: 10.3390/ijms24076450

    Figure Lengend Snippet: Summary table for 47 pO 2 pressure profiles. ‘Ref’ = vnn where v = [3, 4, 5] identifies dataset, nn = profile index; ‘Flow’ = aCSF flow rate [mL/min]; ‘Flat’ = flag indicating paracosh (1) or parabolic (0) fit; ‘rmse’ = rms error for curve fit [mmHg]; ‘Curvature’ = 10 3 × ( 2 a ) [mmHg/ μ m 2 ]; P s = fitted surface pressure at x = L boundary [mmHg]; P min = fitted pressure at x = 0 [mmHg]; ‘Tangent’ = ( ∂ P / ∂ x ) | x = L [mmHg/ μ m]; ‘Ratio (top)’, ‘Ratio (bot)’ = Krogh ratio ( K t / K f ) at upper, lower interface. NB: Values in [brackets] are to be disregarded (existence of stationary layer is implausible).

    Article Snippet: The Matlab paracosh curve-fitting codes plus associated sample pO 2 depth profiles will be supplied on request to the corresponding author (D.A.S.-R.).

    Techniques:

    Distribution of Krogh ratios as a function of curvature of fitted parabolic/paracosh function. Results are clustered by dataset (three columns: v3/v4/v5) and interface (two rows: upper/lower). Dashed-red horizontal marks the selected cut-off between accepted (below red line) and rejected (above line) Krogh ratios. Scanning from left to right, lower aCSF flow rates are generally associated with reduced curvature values, implying increasingly constrained O 2 consumption. Linked pairs show repeated sampling at the same location. For v4, flow rate was set at 1 (open circles) or 2 mL/min (filled circles); for v5, flow rate was fixed at 0.5 mL/min. Outlier pairs 414/416 (v4) and 507/508 (v5) have very discrepant Krogh ratio estimates at the lower interface, possibly due to mechanical disturbance of the slice during withdrawal of O 2 probe prior to repeat sounding. See and .

    Journal: International Journal of Molecular Sciences

    Article Title: Determination of Krogh Coefficient for Oxygen Consumption Measurement from Thin Slices of Rodent Cortical Tissue Using a Fick’s Law Model of Diffusion

    doi: 10.3390/ijms24076450

    Figure Lengend Snippet: Distribution of Krogh ratios as a function of curvature of fitted parabolic/paracosh function. Results are clustered by dataset (three columns: v3/v4/v5) and interface (two rows: upper/lower). Dashed-red horizontal marks the selected cut-off between accepted (below red line) and rejected (above line) Krogh ratios. Scanning from left to right, lower aCSF flow rates are generally associated with reduced curvature values, implying increasingly constrained O 2 consumption. Linked pairs show repeated sampling at the same location. For v4, flow rate was set at 1 (open circles) or 2 mL/min (filled circles); for v5, flow rate was fixed at 0.5 mL/min. Outlier pairs 414/416 (v4) and 507/508 (v5) have very discrepant Krogh ratio estimates at the lower interface, possibly due to mechanical disturbance of the slice during withdrawal of O 2 probe prior to repeat sounding. See and .

    Article Snippet: The Matlab paracosh curve-fitting codes plus associated sample pO 2 depth profiles will be supplied on request to the corresponding author (D.A.S.-R.).

    Techniques: Sampling

    Flow rate clustering and curvature dependence aggregated across (lower interface) of d–f. ( a ) Aggregated scatterplot of candidate Krogh ratio ( K t / K f ) vs. curvature of fitted parabolic/paracosh function, clustered by flow rate [10, 2, 1, or 0.5] mL/min, as indicated by shaded convex-hull polygons (computed via Matlab function convhull). Qualitatively, the polygon centroids move to the left as flow rate decreases, implying that curvature decreases (profiles become flatter) as perfusion flow rate is reduced. This trend is made quantitative in ( b ) with a sigmoid fit to the curvature means (magenta asterisks) at each flow rate. The fitted curve is y = y max · x n / ( K n + x n ) with [ y max = 7.5 × 10 − 3 mmHg/ μ m 2 ; K = 0.75 mL/min; n = 0.75 ].

    Journal: International Journal of Molecular Sciences

    Article Title: Determination of Krogh Coefficient for Oxygen Consumption Measurement from Thin Slices of Rodent Cortical Tissue Using a Fick’s Law Model of Diffusion

    doi: 10.3390/ijms24076450

    Figure Lengend Snippet: Flow rate clustering and curvature dependence aggregated across (lower interface) of d–f. ( a ) Aggregated scatterplot of candidate Krogh ratio ( K t / K f ) vs. curvature of fitted parabolic/paracosh function, clustered by flow rate [10, 2, 1, or 0.5] mL/min, as indicated by shaded convex-hull polygons (computed via Matlab function convhull). Qualitatively, the polygon centroids move to the left as flow rate decreases, implying that curvature decreases (profiles become flatter) as perfusion flow rate is reduced. This trend is made quantitative in ( b ) with a sigmoid fit to the curvature means (magenta asterisks) at each flow rate. The fitted curve is y = y max · x n / ( K n + x n ) with [ y max = 7.5 × 10 − 3 mmHg/ μ m 2 ; K = 0.75 mL/min; n = 0.75 ].

    Article Snippet: The Matlab paracosh curve-fitting codes plus associated sample pO 2 depth profiles will be supplied on request to the corresponding author (D.A.S.-R.).

    Techniques:

    Curvature histograms for each of the [v3, v4, v5] datasets illustrated in . As flow rate decreases from ( a ) 10 → ( b ) [1 or 2] → ( c ) 0.5 mL/min, average curvature decreases, meaning that the parabolic/paracosh curves become ‘flatter’ with shallower wings. For fixed K t , a flatter curvature implies reduced metabolism.

    Journal: International Journal of Molecular Sciences

    Article Title: Determination of Krogh Coefficient for Oxygen Consumption Measurement from Thin Slices of Rodent Cortical Tissue Using a Fick’s Law Model of Diffusion

    doi: 10.3390/ijms24076450

    Figure Lengend Snippet: Curvature histograms for each of the [v3, v4, v5] datasets illustrated in . As flow rate decreases from ( a ) 10 → ( b ) [1 or 2] → ( c ) 0.5 mL/min, average curvature decreases, meaning that the parabolic/paracosh curves become ‘flatter’ with shallower wings. For fixed K t , a flatter curvature implies reduced metabolism.

    Article Snippet: The Matlab paracosh curve-fitting codes plus associated sample pO 2 depth profiles will be supplied on request to the corresponding author (D.A.S.-R.).

    Techniques:

    Journal: Cell Reports

    Article Title: CRISPR-Cas9 screen identifies oxidative phosphorylation as essential for cancer cell survival at low extracellular pH

    doi: 10.1016/j.celrep.2022.110493

    Figure Lengend Snippet:

    Article Snippet: Survival curve fitting code , This paper , Mendeley Data: https://doi.org/10.17632/3x3fv6n6cz.1.

    Techniques: Virus, Knock-Out, CRISPR, Recombinant, Radio Immunoprecipitation, Cell Culture, Gel Extraction, Purification, Bicinchoninic Acid Protein Assay, Construct, Software