Distribution Measuring Instrument Product List and Ranking from 5 Manufacturers, Suppliers and Companies | IPROS

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

Distribution Measuring Instrument Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

  1. シバタ ファインバブル事業部 Aichi//others
  2. ウェーブクレスト Saitama//Educational and Research Institutions
  3. ナノシーズ Aichi//others
  4. Tohoku Techno Arch Co., Ltd. Miyagi//Educational and Research Institutions
  5. 松浦電弘社 Ishikawa//Information and Communications
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Distribution Measuring Instrument Product ranking

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

  1. Nanoparticle size distribution measurement device "SALD-7500nano" シバタ ファインバブル事業部
  2. BOTDR (Brillouin Optical Time Domain Reflectometry, optical fiber sensor) ウェーブクレスト
  3. Tohoku Univ. Technology:Quantitative analysis of amyloid nucleation from droplets:T21-234 Tohoku Techno Arch Co., Ltd.
  4. Tohoku Univ. Technology: Device to measure nanoparticle distribution: T24-030 Tohoku Techno Arch Co., Ltd.
  5. 4 『LED Dot Correction Controller』 松浦電弘社

Distribution Measuring Instrument Product List

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BOTDR (Brillouin Optical Time Domain Reflectometry, optical fiber sensor)

BOTDR (Brillouin Optical Time Domain Reflectometry, optical fiber sensor)

Simultaneous measurement of strain distribution, loss distribution, and Brillouin scattering spectrum at various locations of the optical fiber.

The 6419A BOTDR can simultaneously measure strain distribution, loss distribution, and Brillouin scattering spectrum at various locations of optical fibers, and can display 3D and multiple distribution parameters. It offers advantages such as high-precision strain measurement, good reproducibility, and single-end non-destructive measurement. It has become an indispensable instrument in the fields of optical fiber communication and optical fiber sensing (OFS). The 6419A can be widely used for health monitoring of bridges, dams, tunnels, high-rise buildings, oil platform structures, and oil pipelines, as well as for predicting and warning of geological hazards such as landslides, mudflows, and earthquakes. It is also applicable for diagnosing intelligent structures such as ships and spacecraft. The 6419A can also be used to measure the strain distribution of fiber optic loops or underwater optical cables during the development, manufacturing, testing process, or during the development, manufacturing, construction, acceptance inspection, and maintenance of submarine optical cables.

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Tohoku Univ. Technology:Quantitative analysis of amyloid nucleation from droplets:T21-234

Tohoku Univ. Technology:Quantitative analysis of amyloid nucleation from droplets:T21-234

Applicable to the screening of amyloid nucleation inhibitor

Recently, amyloid fibrils, which relate to various diseases (Alzheimer’s diseases, ALS, etc.), is considered to generate in liquid-like droplets of amyloid precursor proteins (APP).   The quantitative and high-throughput analysis of the amyloid nucleation from the droplets is important for finding inhibitors of amyloid formation. However, there was only qualitative discussion on nucleation process from droplets so far.  This invention provides the method of calculating the quantitative nucleation rate J in a short time by a fluorescence dye and statistical image analysis. The thermodynamic parameter J makes it possible to evaluate amyloid nucleation inhibition capacity of drug candidates regardless of the experimental system, so, this indicator is superior to conventional indicator (lag time).

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Tohoku Univ. Technology: Device to measure nanoparticle distribution: T24-030

Tohoku Univ. Technology: Device to measure nanoparticle distribution: T24-030

Providing measurement technique that enables real-time observation of nanomaterial behavior

 Recently, nanomaterials with innovative functionalities, such as nanofluids (nanoparticle/solvent mixture) and polymer nanocomposite materials (nanoparticle/polymer mixture), have been extensively investigated. These nanomaterials find diverse applications in fields including conductive nano-inks, solar cells, and sensors, and are frequently utilized as thin films. During the coating and thin-film formation processes of nanomaterials on substrates, a technique capable of precisely observing the liquid film shape and the behavior of the contained nanoparticles is essential.  The present invention enables the simultaneous measurement of the liquid film shape, including nanofluids (nanoparticle/solvent mixture) and polymer nanocomposite coating solutions (nanoparticle/polymer/solvent mixture), as well as the distribution and concentration of nanoparticles within the liquid film. By integrating this device into a manufacturing line, process monitoring becomes feasible. Furthermore, a mathematical model has been successfully developed to comprehend the behavior of nanofluid droplets on a substrate. (See T24-027).

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『LED Dot Correction Controller』

『LED Dot Correction Controller』

Applying technology to measure the brightness and color distribution of objects for quality control of LED displays!

The "LED Dot Correction Controller" is a product that applies the technology of analyzing images from CCD cameras to measure the brightness and chromaticity distribution of objects for quality control of LED displays. Even among LEDs of the same manufacturer and model, there is variation in brightness and chromaticity. Therefore, to achieve a uniform brightness and chromaticity distribution in LED displays, it is necessary to perform output correction for each individual LED. By applying this system to address this issue, we capture the variations in brightness of each LED based on the measured results, and by adding feedback control to ensure uniformity, we correct the output levels to eliminate brightness unevenness. 【Features】 ■ Reduces variations in brightness of individual LEDs ■ Corrects output levels through feedback control ■ Eliminates brightness unevenness *For more details, please refer to the PDF document or feel free to contact us.

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Surface potential distribution measurement device "NS-E100 type"

Surface potential distribution measurement device "NS-E100 type"

High-speed monitoring of surface potential distribution on a plane up to 9 samples [contract measurement].

The surface potential distribution can be monitored rapidly up to 9 samples, allowing for quick measurement of the surface potential distribution. Additionally, it is easy to create reports on the surface potential at any point using a dedicated application. 【Features】 ■ High-speed monitoring of surface potential distribution ■ Continuous data acquisition at intervals of a few millimeters ■ Simultaneous measurement of temporal changes in surface potential for up to 9 samples ■ Measurement of surface roughness using a laser displacement meter is also possible ■ Report creation function with a dedicated application *For more details, please refer to the PDF document or feel free to contact us.

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Tohoku Univ. Technology:Cancer prognosis prediction method:T20-2962

Tohoku Univ. Technology:Cancer prognosis prediction method:T20-2962

Development of prognostic prediction method with the novel radiomic feature based on graph theory

 In recent years, the research field to decode the biological characteristics of lesion (radiomics) by analyzing in global a large number of images extracted from medical image database has attracted attention. One potential application of radiomics is to predict the patient prognosis with tumor disease. However, it is difficult to represent phenotypic information of tumor and local information inside tumor with accuracy, so further progress of this research is required.   In this invention, inventors have developed a new radiomic feature based on graph theory. Medical image processed by graph theory feature, and tumor image with relatively good prognosis have a smaller line density than those with poor prognosis. Moreover, the rad score calculated by graph theory feature can clearly indicate the tumor status change compared to the value calculated by conventional feature. Therefore, this invention is able to predict the cancer treatment prognosis with higher accuracy than conventional method.

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Nanoparticle size distribution measurement device "SALD-7500nano"

Nanoparticle size distribution measurement device "SALD-7500nano"

Samples with concentrations below 1 ppm can also be measured! Achieving a wide range and real-time evaluation of dispersion and aggregation characteristics.

The "SALD-7500nano" is a nanoparticle size distribution measurement device that measures fine bubbles ranging from 100nm to 60μm and traces changes in bubble diameter in real-time. It accurately and sensitively measures the particle distribution of low-concentration nanoparticles and highly light-absorbing nanoparticles. This device utilizes the "nanoparticle size distribution measurement device" manufactured by Shimadzu Corporation, which boasts overwhelming demand as an analytical measurement instrument manufacturer. 【Features】 ■ Measures fine bubbles from 100nm to 60μm ■ Accurately and sensitively measures the particle distribution of low-concentration nanoparticles and highly light-absorbing nanoparticles ■ Capable of measuring low-concentration samples of less than 1ppm ■ Utilizes the "nanoparticle size distribution measurement device" manufactured by Shimadzu Corporation *For more details, please refer to the PDF document or feel free to contact us.

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