scatteredinterpolant (linear interpolation) function Search Results


scatteredinterpolant function  (MathWorks Inc)
90
MathWorks Inc scatteredinterpolant function
Schematic of entire FBEµ including a control system for real-time fluorescence imaging and laser patterned photothrombosis. (A) System schematic diagram of FBEµ. It combined a fiber bundle probe, a dual-color fluorescence imaging system, and a 532-nm laser patterned system. (B) The CCD camera and 532-nm laser were synchronized and controlled by the digital delay pulse generator. Control signal timing was relative to the delay zero point (T0) of the digital delay pulse generator internal trigger. The CCD camera ran on every output pulse (T1) of the digital delay pulse generator. Also, the shutter in front of the broadband light source was controlled by the CCD’s exposure TTL signal output, which opened the shutter when the camera was exposed. The digital delay pulse generator output pulses (T2) triggered a 532-nm laser. (C) Dual-color raw fluorescence image of the central indicator pattern obtained from FBEµ using green fluorescence reference slide. The dual-color image was the same sample fluorescence image just optically split using a dichroic mirror 2 into two emission ranges: 520 nm to 550 nm (top left, green fluorescence) and 573 nm to 613 nm (bottom right, red fluorescence). (D) Cropped, magnified, and merged images inside the white boxes in Figure C after <t>interpolation</t> to remove pixelation. The upper-left and lower-right box images are shown in green and red pseudo-colors, respectively. (E) Cropped and magnified green fluorescence image of an interpolated 532-nm laser circular pattern image. The top center represents the laser pattern diameter. Lens 1: f = 180 mm; Lens 2: f = 150 mm; Lens 3: f = 75 mm; Lens 4: f = 180 mm; Dichroic mirror 1: XF2041; Dichroic mirror 2: 660dclp; Ex filter: 479-25/585-25; Em. Filter 1: 525/50Em.; and Em. Filter 2: 593/40Em. Abbreviations: SLM: spatial light modulator and PBS: polarizing beam splitter. Scale bars, 50 µm.
Scatteredinterpolant Function, 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
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scatteredinterpolant function - by Bioz Stars, 2026-03
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scatteredinterpolant (linear interpolation) function  (MathWorks Inc)
90
MathWorks Inc scatteredinterpolant (linear interpolation) function
Schematic of entire FBEµ including a control system for real-time fluorescence imaging and laser patterned photothrombosis. (A) System schematic diagram of FBEµ. It combined a fiber bundle probe, a dual-color fluorescence imaging system, and a 532-nm laser patterned system. (B) The CCD camera and 532-nm laser were synchronized and controlled by the digital delay pulse generator. Control signal timing was relative to the delay zero point (T0) of the digital delay pulse generator internal trigger. The CCD camera ran on every output pulse (T1) of the digital delay pulse generator. Also, the shutter in front of the broadband light source was controlled by the CCD’s exposure TTL signal output, which opened the shutter when the camera was exposed. The digital delay pulse generator output pulses (T2) triggered a 532-nm laser. (C) Dual-color raw fluorescence image of the central indicator pattern obtained from FBEµ using green fluorescence reference slide. The dual-color image was the same sample fluorescence image just optically split using a dichroic mirror 2 into two emission ranges: 520 nm to 550 nm (top left, green fluorescence) and 573 nm to 613 nm (bottom right, red fluorescence). (D) Cropped, magnified, and merged images inside the white boxes in Figure C after <t>interpolation</t> to remove pixelation. The upper-left and lower-right box images are shown in green and red pseudo-colors, respectively. (E) Cropped and magnified green fluorescence image of an interpolated 532-nm laser circular pattern image. The top center represents the laser pattern diameter. Lens 1: f = 180 mm; Lens 2: f = 150 mm; Lens 3: f = 75 mm; Lens 4: f = 180 mm; Dichroic mirror 1: XF2041; Dichroic mirror 2: 660dclp; Ex filter: 479-25/585-25; Em. Filter 1: 525/50Em.; and Em. Filter 2: 593/40Em. Abbreviations: SLM: spatial light modulator and PBS: polarizing beam splitter. Scale bars, 50 µm.
Scatteredinterpolant (Linear Interpolation) Function, 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/scatteredinterpolant (linear interpolation) function/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
scatteredinterpolant (linear interpolation) function - by Bioz Stars, 2026-03
90/100 stars
  Buy from Supplier

Image Search Results


Schematic of entire FBEµ including a control system for real-time fluorescence imaging and laser patterned photothrombosis. (A) System schematic diagram of FBEµ. It combined a fiber bundle probe, a dual-color fluorescence imaging system, and a 532-nm laser patterned system. (B) The CCD camera and 532-nm laser were synchronized and controlled by the digital delay pulse generator. Control signal timing was relative to the delay zero point (T0) of the digital delay pulse generator internal trigger. The CCD camera ran on every output pulse (T1) of the digital delay pulse generator. Also, the shutter in front of the broadband light source was controlled by the CCD’s exposure TTL signal output, which opened the shutter when the camera was exposed. The digital delay pulse generator output pulses (T2) triggered a 532-nm laser. (C) Dual-color raw fluorescence image of the central indicator pattern obtained from FBEµ using green fluorescence reference slide. The dual-color image was the same sample fluorescence image just optically split using a dichroic mirror 2 into two emission ranges: 520 nm to 550 nm (top left, green fluorescence) and 573 nm to 613 nm (bottom right, red fluorescence). (D) Cropped, magnified, and merged images inside the white boxes in Figure C after interpolation to remove pixelation. The upper-left and lower-right box images are shown in green and red pseudo-colors, respectively. (E) Cropped and magnified green fluorescence image of an interpolated 532-nm laser circular pattern image. The top center represents the laser pattern diameter. Lens 1: f = 180 mm; Lens 2: f = 150 mm; Lens 3: f = 75 mm; Lens 4: f = 180 mm; Dichroic mirror 1: XF2041; Dichroic mirror 2: 660dclp; Ex filter: 479-25/585-25; Em. Filter 1: 525/50Em.; and Em. Filter 2: 593/40Em. Abbreviations: SLM: spatial light modulator and PBS: polarizing beam splitter. Scale bars, 50 µm.

Journal: Biomedical Optics Express

Article Title: Targeted photothrombotic subcortical small vessel occlusion using in vivo real-time fiber bundle endomicroscopy in mice

doi: 10.1364/BOE.473407

Figure Lengend Snippet: Schematic of entire FBEµ including a control system for real-time fluorescence imaging and laser patterned photothrombosis. (A) System schematic diagram of FBEµ. It combined a fiber bundle probe, a dual-color fluorescence imaging system, and a 532-nm laser patterned system. (B) The CCD camera and 532-nm laser were synchronized and controlled by the digital delay pulse generator. Control signal timing was relative to the delay zero point (T0) of the digital delay pulse generator internal trigger. The CCD camera ran on every output pulse (T1) of the digital delay pulse generator. Also, the shutter in front of the broadband light source was controlled by the CCD’s exposure TTL signal output, which opened the shutter when the camera was exposed. The digital delay pulse generator output pulses (T2) triggered a 532-nm laser. (C) Dual-color raw fluorescence image of the central indicator pattern obtained from FBEµ using green fluorescence reference slide. The dual-color image was the same sample fluorescence image just optically split using a dichroic mirror 2 into two emission ranges: 520 nm to 550 nm (top left, green fluorescence) and 573 nm to 613 nm (bottom right, red fluorescence). (D) Cropped, magnified, and merged images inside the white boxes in Figure C after interpolation to remove pixelation. The upper-left and lower-right box images are shown in green and red pseudo-colors, respectively. (E) Cropped and magnified green fluorescence image of an interpolated 532-nm laser circular pattern image. The top center represents the laser pattern diameter. Lens 1: f = 180 mm; Lens 2: f = 150 mm; Lens 3: f = 75 mm; Lens 4: f = 180 mm; Dichroic mirror 1: XF2041; Dichroic mirror 2: 660dclp; Ex filter: 479-25/585-25; Em. Filter 1: 525/50Em.; and Em. Filter 2: 593/40Em. Abbreviations: SLM: spatial light modulator and PBS: polarizing beam splitter. Scale bars, 50 µm.

Article Snippet: Finally, the fiber bundle endomicrosopic image was reconstructed using linear interpolation (MATLAB “scatteredInterpolant” function) based on the peak point map obtained in the peak detection step [ 28 ].

Techniques: Control, Fluorescence, Imaging