Control Technology Product List and Ranking from 8 Manufacturers, Suppliers and Companies

Last Updated：Nov 05, 2025 Aggregation Period:Oct 08, 2025～Nov 04, 2025
This ranking is based on the number of page views on our site.

Control Technology Manufacturer, Suppliers and Company Rankings

Last Updated：Nov 05, 2025 Aggregation Period:Oct 08, 2025～Nov 04, 2025
This ranking is based on the number of page views on our site.

超音波システム研究所 Tokyo//Service Industry
技術情報協会 Tokyo//Service Industry
エヌ・ティー・エス Tokyo//Service Industry
NBCメッシュテック Tokyo//others
FADrone Toyama//Building materials, supplies and fixtures manufacturers

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Control Technology Product ranking

Last Updated：Nov 05, 2025 Aggregation Period:Oct 08, 2025～Nov 04, 2025
This ranking is based on the number of page views on our site.

Ultrasonic oscillation control technology utilizing the ultrasonic propagation characteristics of glass containers. 超音波システム研究所
[Book] Generation, Detection, and Control Technologies of Terahertz Waves (No. 2258) 技術情報協会
Innovative Control Technology for Biofilms エヌ・ティー・エス
Ultrasonic oscillation control technology (consulting support) 超音波システム研究所
4 Consulting services based on sound pressure measurement analysis using ultrasonic technology. 超音波システム研究所

Control Technology Product List

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Innovative Control Technology for Biofilms

A systematic and detailed explanation of innovative control technologies for coexistence with and industrial utilization of biofilms!

The latest research focusing on the structural analysis of biofilms and inter-bacterial communication using biological methods and instrumental analysis is packed with information! It explains biofilms that occur in our vicinity by their areas of occurrence! It systematically explains innovative control technologies for biofilms with an eye on Microbial Control 3.0!

Company：エヌ・ティー・エス
Price：10,000 yen-100,000 yen

Water quality/pH measuring device
Other biomass

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Ultrasonic oscillation control technology (consulting support)

Ultrasonic oscillation control technology for controlling nonlinear vibration phenomena

This is a control technology based on measurement, analysis, and evaluation techniques of ultrasonic propagation states, featuring an original nonlinear resonance phenomenon (Note 1). It represents a new application technology for precision cleaning, processing, stirring, inspection, and surface treatment. Note 1: Original Nonlinear Resonance Phenomenon This phenomenon occurs due to the generation of harmonics through original oscillation control, which achieves high amplitude ultrasonic vibrations through resonance phenomena. To efficiently utilize the acoustic properties (surface elastic waves) of various materials, the relaxation treatment of residual stress distribution on surfaces can be easily realized. From an engineering (experimental and technical) perspective on elastic waves and the ultrasonic model of abstract algebra, the original oscillation control method (Note 2) has been developed as an application method for nonlinear phenomena. Note 2: Original Oscillation Control Method Two types of ultrasonic oscillation are performed: one is sweep oscillation control, and the other is pulse oscillation control. Detailed settings are based on the purpose, target object, and tooling, and are configured according to a logical model from the vibration system as a whole.

Company：超音波システム研究所
Price：Other

others
Other analytical equipment
Non-destructive testing

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Consulting services based on sound pressure measurement analysis using ultrasonic technology.

Consulting on ultrasonic cleaning technology using optimization techniques for cavitation and acoustic flow.

The Ultrasonic System Research Institute has developed a technology that applies "measurement, analysis, and control" techniques related to the nonlinearity of ultrasound to analyze and evaluate the dynamic characteristics of ultrasonic vibrations propagating through various media (elastic bodies, liquids, gases). This technology optimizes interactions related to cleaning objects, tools, ultrasonic transducers, water tanks, and liquid circulation according to specific objectives. By utilizing ultrasonic oscillation control probes and ultrasonic testers, we have developed optimization techniques for ultrasonic applications through the examination of various relationships and response characteristics (Note: power contribution rate, impulse response, etc.) based on previous oscillation, measurement, and analysis. Regarding the measurement and analysis of ultrasound, the setting of sampling time and other parameters utilizes original simulation technology. This technology is provided as consulting services for the optimization of ultrasonic systems (cleaning, stirring, processing, etc.).

Company：超音波システム研究所
Price：Other

others
Other analytical equipment
Traceability

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Ultrasonic oscillation control technology that combines multiple sweep oscillations.

Control technology for nonlinear ultrasonic sweep oscillation based on the classification of ultrasonic propagation phenomena.

The Ultrasonic System Research Institute has developed a classification method for the phenomenon of ultrasonic vibrations propagation. Based on this classification, we have developed a nonlinear sweep oscillation control technology for ultrasound using a nonlinear resonant ultrasonic oscillation probe. This ultrasonic sweep oscillation control technology method controls the linear and nonlinear resonance effects according to the main frequency (power spectrum) of the dynamic characteristics (changes in nonlinear phenomena) related to the propagation state of the ultrasound. From previous experiments and data measurement analyses, we have been able to classify effective utilization methods into the following four recommended controls: 1: Two types of sweep oscillation control (linear type) 2: Three types of sweep oscillation control (nonlinear type) 3: Four types of sweep oscillation control (mixed type) 4: Dynamic control (variable type) based on the combinations above Furthermore, the variable type can be classified into the following three control types based on the sweep oscillation conditions: 1: Linear variable control type 2: Nonlinear variable control type 3: Mixed variable control type (dynamic variable type)

Company：超音波システム研究所
Price：Other

pump
Non-destructive testing
Other measuring instruments

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Ultrasonic propagation control technology using titanium straws.

Application technology of <measurement, analysis, and control> using ultrasonic testers.

The Ultrasonic System Research Institute has developed "ultrasonic propagation control technology" using titanium straws based on the classification of cavitation and acoustic flow. This system technology controls changes in acoustic flow according to its intended use by analyzing the complex variations of flow, ultrasound, and fine bubbles through sound pressure measurement analysis that includes various interactions. Practically, it is a method to optimize ON/OFF control (or control of flow rate, flow velocity, etc.) for a degassing fine bubble generation liquid circulation device for showers against various interactions and vibration modes. In particular, by controlling the acoustic characteristics of titanium straws and the oscillation control of megahertz ultrasound, it achieves the effects of a new dynamic ultrasonic control technology by controlling the original nonlinear resonance phenomenon (Note 1). Note 1: Original Nonlinear Resonance Phenomenon This phenomenon occurs when the generation of harmonics caused by original oscillation control is realized at high amplitudes through resonance phenomena, resulting in ultrasonic vibration resonance. Ultrasonic propagation characteristics: 1) Vibration modes 2) Nonlinear phenomena 3) Response characteristics 4) Interactions

Company：超音波システム研究所
Price：Other

Other measuring instruments
Non-destructive testing
others

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Ultrasonic control technology using indirect containers

Technology for controlling nonlinear phenomena of ultrasound.

The Ultrasonic System Research Institute has developed a technology for controlling "nonlinear phenomena of ultrasound (acoustic flow)" using indirect containers. This technology utilizes (evaluates) the ultrasonic propagation characteristics (analysis results) of indirect containers, ultrasonic water tanks, and other items to control ultrasound (cavitation and acoustic flow). Furthermore, it realizes effective ultrasonic (cavitation and acoustic flow) propagation states tailored to the structure, material, and acoustic characteristics of specific target objects, by controlling the oscillation of ultrasound in accordance with the interactions between glass containers, ultrasound, and target objects. In particular, the dynamic characteristics of harmonics through acoustic flow control enable responses at the nanoscale. This has been applied and developed from examples of dispersing metal powders to nanosize. By employing control technologies for standing waves and cavitation in relation to ultrasound, as well as propagation control technologies for indirect containers, we can appropriately control cavitation and acoustic flow. Through original measurement and analysis techniques for ultrasonic propagation states, we have confirmed the evaluation of acoustic flow and numerous know-how.

Company：超音波システム研究所
Price：Other

Scientific Calculation and Simulation Software
Analysis and prediction system
others

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Small pump and ultrasonic control technology using an ultrasonic probe.

Development of "Control Technology for Nonlinear Phenomena" Using a Small Pump

The Ultrasonic System Research Institute has developed "ultrasonic control technology" that dynamically controls nonlinear phenomena related to ultrasonic propagation by utilizing a small pump for liquid circulation. Nonlinear phenomena are evaluated through analysis using an ultrasonic tester. The complex changes in ultrasound (such as ultrasonic cleaners, ultrasonic probes, etc.) are confirmed through time-series data analysis of sound pressure from ultrasonic oscillation and reception, identifying various interactions. Based on the confirmation of these interactions, the oscillation control conditions using ultrasonic probes are optimized, achieving a dynamic ultrasonic control system tailored to specific objectives. In practical applications, such as ultrasonic cleaning, the ON/OFF control (or control of flow rate and velocity, etc.) of the current liquid circulation device is optimized by considering the ultrasonic propagation characteristics related to the installation state of the device and the surface elastic waves of the target object, including the output, oscillation frequency, and control conditions of the ultrasound. In particular, by utilizing the vibration characteristics of the pump to alternately circulate liquid and gas, new nonlinear effects of ultrasound and microbubbles are realized.

Company：超音波システム研究所
Price：100,000 yen-500,000 yen

Scientific Calculation and Simulation Software
Vibration and Sound Level Meter
Non-destructive testing

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Control technology for megahertz ultrasound applied using Shannon's juggling theorem.

Dynamic Control Method for Megahertz Ultrasound Based on Classification Techniques Related to Ultrasonic Propagation Phenomena

The Ultrasonic System Research Institute has developed a classification method for ultrasonic propagation phenomena based on the analysis results of ultrasonic sound pressure data and changes in the bispectrum. This classification has been applied to Shannon's juggling theorem to develop a "dynamic control method for megahertz ultrasound." This technology is being offered for consulting proposals and implementation support. To utilize ultrasonic propagation phenomena stably and efficiently, it is necessary to examine the response characteristics and interactions related to conditions other than oscillators and transducers, as well as to develop dedicated tools. By examining oscillation waveforms and control conditions, new ultrasonic effects (Note 1: Original nonlinear resonance phenomenon) can be discovered. Utilizing ultrasonic phenomena primarily driven by nonlinear effects according to specific purposes enables highly efficient use of ultrasound. In particular, there has been an increase in achievements in nanolevel ultrasonic technology. Note 1: Original nonlinear resonance phenomenon The generation of harmonics caused by original oscillation control, which is realized at high amplitudes due to resonance phenomena, results in the resonance phenomenon of ultrasonic vibrations.

Company：超音波システム研究所
Price：Other

IoT
Non-destructive testing
Scientific Calculation and Simulation Software

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Acoustic flow control technology using a portable ultrasonic cleaner (nonlinear phenomenon)

Application of technology to control the interaction between ultrasound and water tanks.

The Ultrasonic System Research Institute has developed a technology for controlling "nonlinear phenomena of ultrasound (acoustic flow)" by combining a portable ultrasonic cleaner with megahertz oscillation control using ultrasonic probes. This technology controls the dynamic characteristics of ultrasound (cavitation and acoustic flow) based on the analysis of changing ultrasonic sound pressure data (nonlinear). Tailored to the structure, material, and acoustic properties of specific target objects, it measures and confirms the interactions between ultrasound, the target object, the water tank, fixtures, and cleaning solutions to set optimal oscillation conditions for the ultrasonic probe according to the intended purpose. Note: Oscillation waveform, oscillation output, control conditions, etc. (e.g., square wave, duty 47%, 13V, sweep oscillation, 3-18 MHz, etc.) In particular, the dynamic characteristics of harmonics generated by acoustic flow control enable responses at the nano level (emulsification, dispersion, cleaning, processing, etc.). By applying and developing examples of dispersing metal powders to nanosize, it has been put into practical use in material development, chemical reaction control systems, and more.

Company：超音波システム研究所
Price：Other

Scientific Calculation and Simulation Software
Non-destructive testing
others

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Technology for measurement and control to stabilize drone flight in non-GPS environments.

Robust measurement and control technology for stable flight of drones in environments where GPS is unavailable (non-GPS environments)!

FADrone Co., Ltd. primarily develops software for flight controllers embedded in drones used for infrastructure inspections. We are working on robust measurement and control technologies that enable stable flight of drones in environments where GPS is unavailable (non-GPS environments). Please feel free to contact us if you have any inquiries. 【Features】 ■ With the anti-random walk filter, accurate attitude and position estimation can be achieved using only the IMU (Inertial Measurement Unit). ■ Stable attitude and position control is possible with control laws that take into account the gyro effect (gyro precession). *For more details, please request our materials or view the PDF data available for download.

Company：FADrone
Price：Other

Surveying

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Depth of Field Control Technology Using Machine Learning 'Visual AI'

"Visual AI" is a depth of field control technology that uses machine learning to capture images both far and near, similar to the human eye.

By combining distance measurement methods such as stereo cameras with Optical Learning, we create images that capture both distant and close subjects like the human eye. - To achieve a deeper depth of field, we cannot increase the size of the image sensor optically. - The aperture ratio of the image sensor, even with back-illuminated types, has reached its limit. - The only way to design a camera that has a deep depth of field and high sensitivity while being easy to use is through this approach. - Visual AI realizes an ideal pan-focus with a wealth of information.

Company：リアロップ本社
Price：Other

Video Editing
photograph
VR/AR

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H&C (Heat & Cool) technology

H&C process that allows for immediate recovery of equipment investment!

Our "H&C (Heat & Cool) technology" is an advanced, high-speed, and reliable H&C process that also offers high cost-effectiveness. We possess the know-how and capability to rapidly heat only the surface of the mold, and by completely and delicately controlling the temperature distribution, we shorten cycle times and contribute to improvements in the quality of molded products, flow rates, and fluidity. Please feel free to contact us if you have any inquiries. 【Benefits of Implementation】 ■ Elimination of sink marks ■ Concealment of weld lines ■ Removal of visible molding defects ■ Perfect surface transferability ■ Achieving thinness and lightweight design, etc. *For more details, please download the PDF or contact us.

Company：ロックツール
Price：Other

others

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Oxidation Control Technology "MA-T"

Innovative oxidation control technology!

"MA-T" stands for "Matching Transformation System(R)" and is an innovative oxidation control technology. By generating the necessary amount of active species (aqueous radicals) from chlorite ions when needed, it enables the inactivation of various viruses and the sterilization of different bacteria. Moreover, by skillfully controlling the activity level, it paves the way for advanced chemical reactions, enhances the functionality of polymers, and finds applications in devices, pesticides, and pharmaceuticals, serving as a foundation for a wide range of applications. 【Applications of Oxidation Control Technology】 ■ Sterilization of spore-forming bacteria, seed disinfection ■ Disinfection of food and tableware, hygiene management in food factories ■ Disinfectants, anticancer agents, treatments for infectious dermatitis ■ Modification and adhesion of polymer surfaces ■ Advanced oxidation reactions such as methanol production, etc. *For more details, please download the PDF or contact us.

Company：アース製薬
Price：Other

others

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Nonlinear Oscillation Control Technology of Ultrasound ――Sweep Oscillation Know-How――

Development technology for dynamic control systems using ultrasound.

The Ultrasonic System Research Institute has developed a new nonlinear sweep oscillation control technology for ultrasound, utilizing the nonlinear vibration phenomena of surface elastic waves. Regarding complex vibration states: 1) Linear phenomena and nonlinear phenomena 2) Interactions and the acoustic characteristics of various components 3) Sound, ultrasound, and surface elastic waves 4) Low frequency and high frequency (harmonics and subharmonics) 5) Oscillation waveform and output balance 6) Oscillation control and resonance phenomena ... Based on the above, we optimize a new evaluation method for surface elastic waves using a statistical mathematical model based on sound pressure measurement data. Ultrasonic cleaning, processing, stirring, ... surface inspection, ... nanotechnology, ... applied research ... various responses are possible. Propagation characteristics of ultrasound: 1) Detection of vibration modes (changes in autocorrelation) 2) Detection of nonlinear phenomena (changes in bispectrum) 3) Detection of response characteristics (analysis of impulse response characteristics) 4) Detection of interactions (analysis of power contribution rates) Note: "R" is a free statistical processing language and environment. autcor: autocorrelation analysis function bispec: bispectrum analysis function mulmar: impulse response analysis function

Company：超音波システム研究所
Price：Other

Water Treatment
Analysis and prediction system
others

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Consulting support for the technology that utilizes ultrasound through tapping (with low-frequency stimulation).

Combination technology of sound and ultrasound—technology to optimize low-frequency resonance phenomena and high-frequency nonlinear phenomena.

The Ultrasonic System Research Institute develops and applies control technologies for ultrasound (nonlinear resonance phenomena) utilizing the combination of sound and ultrasound, based on the following technologies: - Ultrasonic oscillation control technology (original product: ultrasonic oscillation control probe) - Measurement technology for ultrasonic propagation conditions (original product: ultrasonic tester) - Analysis technology for ultrasonic propagation conditions (nonlinear analysis system for time-series data) - Optimization technology for ultrasonic propagation conditions (optimization processing of sound and ultrasound) - Development and manufacturing technology for ultrasonic oscillation probes and propagation tools - Technology for controlling surface acoustic waves of systems As an application example of this technology, we achieve effective use of ultrasound tailored to the conditions of various parts and materials (in air, underwater, in contact with elastic bodies, etc.) for purposes such as cleaning, surface modification, stirring, promoting chemical reactions, and vibration control of various systems.

Company：超音波システム研究所
Price：Other

pump
Other measuring instruments
others

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