ソナス List of Products and Services

In agricultural irrigation management, it is important to accurately monitor the water levels in rice fields and farms and supply the appropriate amount of water. Water shortages can lead to poor crop growth, while excessive watering can result in soil erosion and the emergence of pests and diseases. In response to this challenge, our battery-powered cloud-based water level monitoring system supports appropriate irrigation management by allowing real-time monitoring of water levels from a distance. 【Use Cases】 - Monitoring water levels in rice fields - Monitoring irrigation conditions in farms - Managing water levels in reservoirs 【Benefits of Implementation】 - Increased yield through optimized watering management - Effective use of water resources - Alleviation of labor shortages

• Other measuring instruments

To reduce the risk of landslides, it is important to accurately monitor the water levels of rivers and slopes and to detect abnormalities early. Traditional monitoring systems have sometimes made it difficult to establish sufficient monitoring frameworks due to constraints related to power supply and installation locations. This product, powered by batteries, eliminates the need for power installation and can be set up in various locations, enabling extensive water level monitoring. 【Usage Scenarios】 - Monitoring river water level rises - Monitoring water levels on slopes with a high risk of landslides - Monitoring water levels in dams and retention basins 【Benefits of Implementation】 - Early detection of landslide risks allows for rapid response. - Reduces costs associated with power installation and setup, enabling an efficient monitoring system. - Real-time monitoring from a distance minimizes the need for on-site visits.

• Other measuring instruments

In river management, flood prediction is extremely important for protecting the safety of residents. Accurate water level data acquisition and a system for early detection of anomalies are required. Conventional systems have faced many challenges, such as power supply issues, constraints on installation locations, and problems with data acquisition frequency. Our battery-powered cloud-based water level monitoring system addresses these challenges. 【Usage Scenarios】 - Monitoring water levels during flooding - Observing water level distribution and fluctuations 【Benefits of Implementation】 - Reduction in power supply installation costs - Decrease in the labor required for measurement, recording, and monitoring

• Other measuring instruments

This product features long-term operation on dry batteries while maintaining a high-frequency measurement cycle, enabling remote real-time monitoring and immediate alerts in case of abnormalities. It can also be linked with battery-operated cloud cameras. ■ Features - Long-term operation for up to 5 years on batteries - High-frequency measurements once every minute (measured data is continuously uploaded to the cloud) - Measurement range of up to 20 km (including underground and in tunnels) - Can connect to over 100 sensors ■ Amazing Points - No power supply needed on-site - Simply install the device and turn on the switch to automatically start measuring, recording, and monitoring - Immediate alerts in case of abnormalities - Remote real-time monitoring and various setting changes such as thresholds and measurement cycles are possible ■ Useful Applications - Cost reduction for power supply construction - Cost reduction for equipment installation - Reduction of manual measurement, recording, and monitoring efforts ■ Possible Uses - Water level monitoring during flooding - Monitoring drainage conditions - Observing water level distribution and fluctuations This system is available for sale, rental, and W-rental. *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

This system connects measuring instruments equipped with 4-20mA or 0-10V analog outputs to UNISONet, allowing measurement data to be continuously uploaded to the cloud and automatically recorded in the cloud. Additionally, it has a function to issue immediate alerts in case of abnormalities. ■ Examples of devices that can connect to the cloud - Laser distance meters - Dust concentration meters - Oxygen detectors - pH meters - Flow meters - Liquid level meters, etc. ■ How it is useful - Eliminates the need to visit measurement sites to collect data - No handwritten records required - Reduces the hassle of transporting measuring instruments - Minimizes damage through early detection of abnormalities ■ Example of usage purposes - Streamlining inspection work - Real-time alerts during abnormalities - Automatic measurement, recording, and monitoring ■ Features of the system - Continuously and automatically acquires and records measurement data - Allows real-time confirmation of measurement values from a distance - Supports data downloads from the cloud - Enables centralized management of various measuring instruments This system is available for sale, rental, and W rental. *For more details, please refer to the PDF materials or feel free to contact us. #1

• IoT

This system is expected to be effective for theft prevention and similar measures. By attaching a small 4cm square wireless sensor to materials such as cables and copper wires that are at risk of theft, the sensor automatically sends an email notification when it detects movement, and a rotating light emits sound and light. Additionally, it features automatic photography via a camera. ■ When the sensor detects movement... - Automatic email notification - Rotating light emits sound and light - Automatic photography with a battery-operated cloud camera ■ Here’s what’s impressive - Devices like sensors and cameras are battery-operated, making installation easy - Captured images can be viewed from anywhere on the cloud - Monitoring range is up to 20km - More than 100 sensors can be connected ■ Here’s how it can be useful - Measures using deterrents that intruders dislike (camera), sound and light (rotating light) - Quick and easy theft prevention - Low implementation cost ■ Suitable locations include - Locations for solar panel installations - Construction sites - Material storage areas, warehouses - Farms This system is available for sale, rental, and W rental. *For more details, please refer to the PDF document or feel free to contact us.

• Other security systems

We would like to introduce the "Battery-Powered Cloud Camera," which is expected to be useful for progress management at construction sites and monitoring the condition of infrastructure. This cloud camera operates on batteries for over a year and has three shooting modes: regular shooting, trigger shooting, and on-demand shooting. ■ Ideal for the following types of sites since it is battery-operated! - Civil engineering construction sites - Infrastructure such as rivers, elevated bridges, and slopes ■ It can be used for the following purposes! - Progress recording at construction sites - Condition monitoring of rivers, elevated bridges, slopes, etc. - Reduction of manual inspection tasks on-site - Theft prevention ■ Automatic shooting (trigger shooting) is possible with sensors! - Water level sensor → Monitoring river flooding - Vibration sensor → Theft prevention - Tilt sensor → Monitoring slopes and temporary structures - E-mail → Integration with other systems ■ Here’s what’s amazing! - No need to prepare a power source on-site - Shooting and image verification can be done from the cloud without going to the site - Easy installation due to wireless capability; just turn on the switch - Shooting can also be done at user-defined timings (on-demand shooting) This system is available for rental and double rental. *For more details, please refer to the PDF document or feel free to contact us.

• Security cameras and surveillance systems

With a power-saving wireless network capable of covering super high-rise buildings, multi-point synchronized measurements can be conducted throughout structures such as buildings. There is no need to prepare power sources or perform wiring work at measurement locations. Thanks to smart products and simple installation work, the total cost is less than half that of wired systems. We offer this in conjunction with a system that can be managed remotely via the cloud. Our proprietary LPWA, UNISONet, is used for the wireless network that performs communication and time synchronization, allowing for the acquisition of three-axis acceleration data wirelessly.

• Vibration and Sound Level Meter

In the field of disaster prevention, ensuring the safety of evacuation routes during events such as earthquakes and landslides is extremely important. To secure the safety of evacuees, it is necessary to detect abnormalities in the ground and structures early and to conduct rapid evacuation guidance. Traditional visual inspections and manual measurements are prone to time constraints and human errors, making quick responses difficult. Our wireless tilt monitoring system addresses these challenges. 【Usage Scenarios】 - Slopes with a risk of landslides - Bridges and structures that serve as evacuation routes - Ground conditions at evacuation centers 【Benefits of Implementation】 - Continuous monitoring of the safety of evacuation routes - Rapid evacuation guidance in the event of abnormalities - Cost reduction through automated measurements without human intervention

• Other measuring instruments

In river conservation sites, it is important to accurately grasp the displacement of structures such as levees and revetments, and to detect abnormalities early. Ground subsidence and tilting of structures not only threaten the safety of rivers but can also impact surrounding areas. Traditional management methods often rely on manual measurements and visual inspections, which can be time-consuming and costly, and carry the risk of oversight. Our wireless tilt monitoring system addresses these challenges. 【Usage Scenarios】 - Monitoring displacement of levees - Monitoring tilt of revetments - Observing dynamics of river structures 【Benefits of Implementation】 - Reduction of labor for measurement, recording, and monitoring - Reduction of equipment costs - Rapid response through early detection of abnormalities

• Other measuring instruments

In the port industry, continuous monitoring is essential to ensure the safety of structures such as revetments and breakwaters. Ground subsidence and structural displacement can potentially affect the safe navigation of vessels and the functionality of ports. Traditional visual inspections and manual measurements are labor-intensive and costly, and they can delay the early detection of anomalies. Our wireless tilt monitoring system addresses these challenges. 【Usage Scenarios】 - Monitoring the tilt of revetments - Monitoring the displacement of breakwaters - Monitoring the subsidence of quay walls 【Benefits of Implementation】 - Reduction of labor for measurement, recording, and monitoring - Reduction of equipment costs - Prompt response through early detection of anomalies

• Other measuring instruments

In the geological survey industry, managing the risks of ground movement in civil engineering and infrastructure development is crucial. Even slight changes in the ground can have serious implications for the safety of structures, necessitating accurate measurements and prompt responses. Traditional measurement methods often involve labor-intensive processes and costs, which can lead to delays in responding to anomalies. Our wireless tilt monitoring system addresses these challenges. 【Use Cases】 - Displacement measurement of retaining walls, steel sheet piles, and sheet piles at construction sites - Monitoring the condition of natural slopes and embankments - Tilt monitoring of bridge girders and bents 【Benefits of Implementation】 - Reduction of labor for measurement, recording, and monitoring - Cost savings on equipment - Risk reduction through rapid response to anomalies

• Other measuring instruments

In the railway industry, the stability of structures such as tracks and bridges is crucial for ensuring safe operations. Deformation of structures due to ground movement or aging increases the risk of derailment accidents and service interruptions. Our wireless tilt monitoring system has been developed to mitigate these risks. 【Application Scenarios】 - Monitoring of track subsidence and tilt - Monitoring of displacement in bridges and elevated structures - Monitoring of stability in tunnels and retaining walls 【Benefits of Implementation】 - Early detection of abnormalities in structures to prevent accidents - Automation of manual measurement tasks to reduce costs - 24/7 monitoring system to enhance safety

• Other measuring instruments

In the civil engineering industry, the measurement of displacement in retaining walls, steel sheet piles, and sheet piles poses challenges in terms of labor-intensive measurements and costs associated with optical surveying. Accurate measurements are crucial for safety management in construction, but efficient operation is also required. Our wireless tilt monitoring system was developed to address these challenges. 【Application Scenarios】 - Retaining wall construction - Steel sheet pile construction - Sheet pile construction 【Benefits of Implementation】 - Reduction of labor for measurement, recording, and monitoring - Reduction of equipment costs - Reduction of costs for power supply work

• Other measuring instruments

In the construction industry, the safety of construction work is the top priority. Accurately monitoring the displacement of retaining walls, steel sheet piles, and sheet piles, and detecting abnormalities early is essential for accident prevention. Traditional management methods involve labor-intensive measurement and recording, which can delay responses in the event of abnormalities. Our wireless tilt monitoring system addresses these challenges. 【Usage Scenarios】 - Retaining wall construction - Steel sheet pile construction - Sheet pile construction - Monitoring the condition of natural slopes and embankments - Monitoring the tilt of bridge girders and vents 【Benefits of Implementation】 - Reduction in the labor required for measurement, recording, and monitoring - Reduction in equipment costs - Reduction in the costs of power supply construction

• Other measuring instruments

We would like to introduce our "Wireless Inclination Monitoring System" (NETIS Registration Number: KT-230117-A). - It automates traditional management performed by humans using piano wires and plumb lines. - It significantly reduces costs compared to surveying using light waves. - It provides immediate alerts in case of abnormalities. - Various settings, including monitoring measurement values and initial position settings, can be changed remotely from a computer. ■ Features - Operates on batteries for about one year - Measurement range of up to 20 km - Can connect to over 100 sensors ■ Amazing Aspects - No power supply needed on-site - Simply install and turn on the switch to automatically start measurement, recording, and monitoring - Wireless, eliminating complicated wiring work ■ Benefits - Reduces the labor involved in manual measurement, recording, and monitoring - Lowers equipment costs - Reduces costs for power supply installation ■ Other Possible Applications - Dynamic observation - Monitoring the condition of natural slopes and embankments - Monitoring the inclination of bridge girders and vents This system is available for sale, rental, and W rental. *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

In harbor revetment management, it is important to accurately grasp the displacement of the revetment and ensure the safety of the structures. Traditional measurement methods have faced challenges such as the need for manual measurements or expensive measuring equipment, making constant monitoring difficult. Our system enables low-cost, continuous automatic measurements and provides immediate alerts in case of abnormalities. This strengthens the safety management of the revetment and allows for rapid responses. 【Usage Scenarios】 - Measurement of revetment displacement - Measurement of steel sheet piles and parent piles - Early detection of abnormalities 【Benefits of Implementation】 - Reduction of manpower in measurement operations - Lower costs for measuring equipment - Rapid response in case of abnormalities

• Other measuring instruments

In the railway industry, it is crucial to accurately understand ground movements and structural displacements in order to prevent accidents. In particular, displacements of retaining walls and structures around the tracks directly impact train operations, necessitating the establishment of a continuous monitoring system. Traditional measurement methods require manual measurements or the introduction of expensive measuring equipment, which poses challenges in terms of cost and effort. Our company's retaining wall displacement measurement system addresses these issues by using wireless inclinometers. 【Use Cases】 - Displacement measurement of retaining walls along the tracks - Displacement measurement of the foundation parts of bridges and viaducts - Displacement measurement of surrounding ground during tunnel construction 【Benefits of Implementation】 - Reduction of manpower in measurement operations - Lower costs for measuring equipment - Immediate alerts during anomalies for prompt response - Establishment of a 24/7 continuous monitoring system

• Other measuring instruments

In demolition work, it is very important to minimize the impact on the surrounding area. In particular, it is necessary to consider the effects on nearby buildings and infrastructure, and to ensure the safety of the retaining wall. Traditional measurement methods have posed challenges, such as the need for manual measurements or the introduction of expensive equipment, making continuous monitoring difficult. To address this issue, we propose our wireless inclinometer-based retaining wall displacement measurement system. 【Usage Scenarios】 - Displacement measurement of retaining walls at demolition sites - Monitoring the impact on nearby buildings - Risk management of ground subsidence 【Benefits of Implementation】 - Reduction of manpower in measurement tasks - Cost reduction of measurement equipment - Rapid response through immediate alerts in case of abnormalities

• Other measuring instruments

In the tunnel excavation industry, it is crucial to accurately grasp ground fluctuations during excavation to ensure safety. In particular, measuring the displacement of retaining walls is essential for maintaining the stability of tunnels. Traditional measurement methods require manual measurements or the introduction of expensive equipment, leading to challenges in measurement frequency and costs. Our retaining wall displacement measurement system enables constant automatic measurement at a low cost and provides immediate alerts in case of abnormalities. This strengthens safety management during tunnel excavation and supports efficient operations. 【Usage Scenarios】 - Measuring the displacement of retaining walls at tunnel excavation sites - Early detection of ground anomalies to prevent accidents - Real-time monitoring of measurement data 【Effects of Implementation】 - Reduction in manpower for measurement tasks - Lower costs for measurement equipment - Reduced costs for installation work

• Other measuring instruments

In the civil engineering industry, cost reduction and labor-saving are important challenges in the measurement of displacement of retaining walls. Traditional measurement methods require manual measurement or the introduction of expensive equipment, making continuous monitoring difficult. This product enables low-cost, continuous automatic measurement and provides immediate alerts in case of abnormalities. Installation on-site is also easy, and no power supply is needed. 【Usage Scenarios】 - Measurement of displacement of retaining walls - Measurement and management of parent piles and steel sheet piles - Cost reduction at construction sites 【Effects of Implementation】 - Labor-saving in measurement operations - Reduction in the cost of measurement equipment - Lower costs for installation work

• Other measuring instruments

In the construction industry, ensuring the safety of excavation work is one of the most important challenges. Accurately monitoring the displacement of parent piles and steel sheet piles and detecting abnormalities early is essential for accident prevention. Traditional measurement methods require manual measurements or the introduction of expensive measuring equipment, making continuous monitoring difficult. Our system achieves low-cost, continuous automatic measurement and provides immediate alerts in case of abnormalities. This makes it possible to enhance safety at the site. 【Usage Scenarios】 - Excavation work sites - Displacement measurement of parent piles and steel sheet piles - Safety monitoring of retaining walls 【Benefits of Implementation】 - Reduction of manpower in measurement tasks - Cost reduction of measuring equipment - Accident prevention through early detection of abnormalities

• Other measuring instruments

In riverbank improvement management, constant monitoring of displacement is crucial to ensure the stability of the riverbank. Traditional measurement methods require manual measurements or expensive measuring equipment, which poses challenges in terms of cost and effort. Additionally, constant monitoring is difficult, and there is a risk of delayed response during abnormal occurrences. Our company's displacement measurement system uses wireless inclinometers to automatically measure riverbank displacement at a low cost, achieving constant monitoring. In the event of an anomaly, it provides immediate alerts, enabling rapid response. 【Use Cases】 - Displacement measurement of riverbank parent piles and steel sheet piles - Safety management at river construction sites - Maintenance management of riverbanks 【Benefits of Implementation】 - Reduction of manpower in measurement operations - Cost reduction of measuring equipment - Rapid response during abnormal occurrences - Improved safety of riverbanks

• Other measuring instruments

In railway construction, track deformation is a significant issue that threatens safe operations. It is essential to detect distortions in the tracks caused by ground movement and changes in structures at an early stage and to implement appropriate measures. Traditional measurement methods require manual measurements or the introduction of expensive measuring equipment, making continuous monitoring difficult. Our system enables low-cost, continuous automatic measurement, recording, and monitoring, and provides immediate alerts in case of abnormalities. 【Usage Scenarios】 - Monitoring ground movement around the tracks - Monitoring structural displacements of bridges and tunnels - Monitoring the impact on tracks during construction 【Benefits of Implementation】 - Reduction of manpower in measurement operations - Lower costs for measuring equipment - Rapid response in case of abnormalities

• Other measuring instruments

In the foundation monitoring of bridge construction, it is important to accurately grasp ground fluctuations and structural displacements. In particular, the stability of retaining walls is essential for ensuring the safety of the construction. Traditional measurement methods require manual measurements or the introduction of expensive equipment, which poses challenges in terms of cost and effort. Our retaining wall displacement measurement system enables low-cost, continuous automatic measurements and provides immediate alerts in case of abnormalities. 【Usage Scenarios】 - Displacement measurement of retaining walls in bridge construction - Monitoring ground fluctuations in foundation work - Stability monitoring of temporary structures 【Effects of Implementation】 - Reduction of personnel in measurement operations - Lower cost of measurement equipment - Lower cost of implementation work

• Other measuring instruments

In the plant construction industry, the safe operation of equipment is the top priority. In particular, the displacement of retaining walls can have a significant impact on surrounding equipment. Traditional measurement methods require manual measurements or the introduction of expensive measuring devices, making continuous monitoring difficult. Sonas's retaining wall displacement measurement system enables low-cost, continuous automatic measurement and provides immediate alerts in case of abnormalities. This enhances the safety of plant equipment and minimizes risks. 【Use Cases】 - Displacement measurement of retaining walls at plant construction sites - Early detection of equipment subsidence or tilting - Risk management of ground movement 【Benefits of Implementation】 - Reduction of manpower in measurement operations - Lower costs for measuring equipment - Improved safety of plant equipment

• Other measuring instruments

In the field of road construction, early detection and countermeasures for pavement deformation are crucial. Pavements can deform due to various factors such as temperature changes, vehicle traffic, and ground fluctuations, which can compromise the safety and durability of the road. Traditional measurement methods require manual measurements, making continuous monitoring difficult. Additionally, the introduction and management of expensive measuring equipment have also been burdensome. Our company's displacement measurement system for retaining walls utilizes wireless inclinometers to enable low-cost, continuous automatic measurement, recording, and monitoring of pavement deformation. In the event of abnormalities, it provides immediate alerts to support rapid responses. 【Application Scenarios】 - Monitoring pavement deformation at road construction sites - Early detection of ground subsidence or uplift - Monitoring displacement of structures such as bridges and tunnels 【Benefits of Implementation】 - Early detection of pavement deformation and rapid response - Reduction in manpower for measurement tasks - Lower costs for measuring equipment - Reduced costs for installation work

• Other measuring instruments

In real estate development, safety management during construction is crucial for mitigating project risks. In particular, measuring the displacement of retaining walls in excavation work is essential for understanding the impact on surrounding ground and preventing accidents. Traditional measurement methods require manual measurements or the introduction of expensive measuring equipment, which poses challenges in terms of cost and effort. Our system enables low-cost, continuous automatic measurements and provides immediate alerts in case of abnormalities, allowing for rapid response. Installation on-site is also easy and does not require a power supply. This leads to a reduction in manpower for measurement tasks, lower costs for measuring equipment, and reduced costs for installation work. 【Use Cases】 - Displacement measurement of retaining walls in excavation work - Safety management at construction sites - Monitoring the impact on surrounding ground 【Benefits of Implementation】 - Reduction in manpower for measurement tasks - Lower costs for measuring equipment - Rapid response in case of abnormalities - Mitigation of risks in construction projects

• Other measuring instruments

In mine tunnel maintenance, it is important to prevent deformation and collapse of tunnels due to ground movement. To ensure the safety of the tunnels, it is necessary to continuously monitor displacements and detect abnormalities early. Traditional measurement methods have faced challenges due to the labor-intensive nature of manual measurements, making continuous monitoring difficult. Additionally, the introduction and management of expensive measuring equipment have also been burdensome. Our ground displacement measurement system addresses these issues. 【Usage Scenarios】 - Tunnel displacement measurement - Monitoring the stability of the ground - Early detection of rockfall risks 【Benefits of Implementation】 - Reduction of manpower in measurement operations - Cost reduction in measurements - Rapid response in case of abnormalities

• Other measuring instruments

In port construction, the stability of the ground is extremely important. Accurately measuring the displacement of retaining walls and detecting abnormalities early is essential for ensuring safe construction. Traditional measurement methods require manual measurements or the introduction of expensive equipment, making continuous monitoring difficult. Our company's retaining wall displacement measurement system enables low-cost, continuous automatic measurement, recording, and monitoring, with immediate alerts in case of abnormalities. 【Usage Scenarios】 - Displacement measurement of steel sheet piles and parent piles in port construction - Monitoring of ground subsidence and structural tilting - Safety management in land reclamation and revetment work 【Benefits of Implementation】 - Reduction of personnel in measurement operations - Cost reduction of measurement equipment - Rapid response in case of abnormalities - Improvement of construction safety

• Other measuring instruments

In urban infrastructure construction such as subway projects, it is important to accurately grasp the displacement of retaining walls in order to minimize the impact on the surrounding ground. Traditional measurement methods require manual measurements or the introduction of expensive measuring equipment, which poses challenges in terms of cost and effort. Sonas's retaining wall displacement measurement system enables low-cost, continuous automatic measurements and provides immediate alerts in case of abnormalities. Installation on-site is also easy, and no power supply is required. 【Usage Scenarios】 - Displacement measurement of retaining walls in subway construction - Displacement management of parent piles and steel sheet piles - Risk management of ground movement 【Benefits of Implementation】 - Reduction of manpower in measurement operations - Cost reduction in measurements - Establishment of a real-time monitoring system

• Other measuring instruments

In the dam construction industry, continuous monitoring through displacement measurement is crucial for ensuring the safety of structures. Traditional measurement methods require manual measurements or the introduction of expensive measuring equipment, which poses challenges in terms of cost and effort. Our product addresses these issues by using a wireless inclinometer. 【Application Scenarios】 - Displacement measurement of retaining walls and surrounding structures at dam construction sites - Early detection of ground movement and structural anomalies - Long-term monitoring of structures 【Benefits of Implementation】 - Reduction of personnel in measurement operations - Decrease in measurement costs - Improved safety through early detection of anomalies

• Other measuring instruments

In tunnel construction, it is important to accurately grasp the displacement of the retaining wall and take appropriate measures to enhance excavation efficiency. Traditional measurement methods require manual measurements or the introduction of expensive equipment, leading to challenges in measurement frequency and costs. There are also cases where continuous measurement, recording, and monitoring are difficult, which could result in delays in excavation work and safety risks. Our retaining wall displacement measurement system enables constant automatic measurement at a low cost and provides immediate alerts in case of abnormalities. This contributes to the efficiency of excavation work and improved safety. 【Usage Scenarios】 - Displacement measurement of retaining walls in tunnel excavation work - Monitoring of displacement of parent piles and steel sheet piles - Progress management of excavation work 【Effects of Implementation】 - Reduction of manpower in measurement tasks - Cost reduction of measurement equipment - Increased efficiency of excavation work - Improved safety

• Other measuring instruments

In the construction industry, measuring the displacement of retaining walls is extremely important for safety management. Traditional measurement methods require manual measurements or the introduction of expensive equipment, making continuous monitoring difficult. In particular, the displacement of parent piles and steel sheet piles is easily affected by changes in ground conditions and surrounding environments, necessitating rapid responses. Our product enables low-cost, continuous automatic measurement and provides immediate alerts in case of abnormalities, thereby enhancing safety management. 【Usage Scenarios】 - Measuring the displacement of parent piles and steel sheet piles in retaining wall construction - Monitoring the displacement of retaining walls - Safety management at construction sites 【Benefits of Implementation】 - Reduction of manpower in measurement operations - Lower costs of measurement equipment - Cost reduction in implementation projects

• Other measuring instruments

In this case, the customer has previously conducted displacement measurements of retaining walls such as sheet piles and soldier piles using conventional plumb lines, piano wires, or methods like wave surveying and total stations. With the conventional measurement methods, workers manually took measurements regularly, making continuous measurement, recording, and monitoring impossible. Additionally, the measurement process itself was labor-intensive. When using total stations, the cost and management of the equipment were significant burdens. The company was also focusing on improving productivity through on-site digital transformation (DX) by utilizing advanced technologies such as IoT. ■ Implementing Company: Major General Contractor ■ Challenges Before Implementation: - Manual measurements were burdensome - Continuous measurement, recording, and monitoring were difficult - Total stations were expensive ■ Reasons for Selection: - Achieves low-cost, continuous automatic measurement, recording, and monitoring, with immediate alerts in case of abnormalities - Simple start-up on-site by just installing the equipment and turning on the switch - The inclinometer is battery-operated, eliminating the need for power on-site ■ Effects of Implementation: - Reduction in manpower for measurement tasks - Lower costs for measurement equipment - Lower costs for installation work * This system is available for rental and double rental.

• Other measuring instruments

We would like to introduce our "Wireless Inclination Monitoring System" (NETIS Registration Number: KT-230117-A). This system can be widely utilized in various sites such as bridge construction, excavation work, earth retention work, shaft and thrust construction, and embankment work. ■ Main Features - Capable of approximately one year of battery operation, suitable for long-term use - Measurement over a wide range of up to 20 km - High expandability with the ability to connect over 100 sensors ■ Applications - A system suitable for dynamic observation - Effective for measuring displacements of earth retention and sheet piles - Can also be used for monitoring the inclination of bridge girders and vents ■ Advantages - No need for power supply work on-site, making installation easy - Automatically starts measuring, recording, and monitoring simply by turning on the switch after installation - Wireless capability eliminates the need for complex wiring work - Remote operation allows for real-time monitoring, initial setup, and various setting changes ■ Expected Benefits - Reduction in costs associated with power supply work - Lower costs for equipment installation - Alleviation of the burden of manual measurement and monitoring tasks, achieving greater efficiency This system is available for sale, rental, and W rental. *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

We would like to introduce our "Wireless Inclination Monitoring System" (NETIS registration number: KT-230117-A). This product is effective in various locations such as bridge construction, excavation work, earth retention work, shaft and thrust construction, and embankment work. ■ Features - Operates on battery for about one year - Measurement range up to 20 km - Can connect over 100 sensors ■ Applications - Dynamic observation - Displacement measurement of earth retention and sheet piles - Inclination monitoring of bridge girders and vents ■ Highlights - No power supply needed on site - Just install and turn on the switch to automatically start measurement, recording, and monitoring - Wireless, eliminating complicated wiring work - Real-time monitoring, initial position setting, and various configuration changes are possible remotely ■ Benefits - Cost reduction for power supply work - Cost reduction for equipment installation - Reduction of labor for measurement, recording, and monitoring This system is available for sale, rental, and W rental. *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

In the agricultural sector, it is essential to accurately grasp environmental data such as temperature, humidity, and sunlight exposure to optimally manage crop growth conditions. Real-time environmental monitoring is indispensable for early detection of abnormal weather and the risk of pests and diseases, allowing for appropriate countermeasures. This system provides a wireless analog signal input system utilizing UNISONet to address these challenges. 【Usage Scenarios】 - Temperature and humidity management in greenhouses - Monitoring sunlight exposure and soil moisture levels in fields - Collection and analysis of weather data 【Benefits of Implementation】 - Optimization of growth management through visualization of environmental data - Minimization of damage through early detection of anomalies - Improvement of work efficiency and cost reduction

• Other measuring instruments

In the food industry, temperature management is extremely important for maintaining quality. Changes in temperature within refrigeration and freezing units can affect the freshness and safety of food, and like foreign substance contamination, can become a significant issue that undermines a company's trust. Inadequate temperature management can lead to food waste and complaints, potentially resulting in substantial losses. Our IoT visualization wireless analog signal input system centralizes data from measuring instruments such as temperature sensors in the cloud, enhancing food quality management by monitoring temperature anomalies in real-time. 【Usage Scenarios】 - Refrigerated and frozen warehouses - Food manufacturing lines - Temperature management during transportation 【Benefits of Implementation】 - Reduction of food loss through early detection of temperature anomalies - Streamlining of record-keeping tasks - Improvement in quality management - Compliance support

• Other measuring instruments

In the field of environmental pollution measurement, continuous monitoring of air and water quality is essential. In particular, it is necessary to accurately grasp fluctuations in dust, noise, pH levels, and other factors around factories and construction sites to maintain compliance with environmental standards. Traditional measurement methods often involve labor-intensive manual recording and data collection on-site, which can lead to delays in responding to anomalies. Our IoT visualization wireless analog signal input system addresses these challenges. 【Usage Scenarios】 - Air pollution measurement around factories - Noise and dust measurement at construction sites - pH value and water quality measurement of rivers and drainage - Environmental monitoring of waste disposal sites 【Benefits of Implementation】 - Improved operational efficiency through automatic recording of measurement data and remote monitoring - Reduced environmental risks through early detection of anomalies and rapid response - Implementation of effective environmental measures based on real-time data

• Other measuring instruments

In the infrastructure industry, the aging of equipment and the early detection of abnormalities are critical issues. Particularly for structures such as bridges and tunnels, as well as lifeline facilities like water supply and sewage systems and gas pipelines, it is essential to accurately understand their condition and perform appropriate maintenance. However, traditional inspection methods have relied on manual visual checks and periodic measurements, which carry the risk of delayed detection of abnormalities. The IoT visualization wireless analog signal input system addresses these challenges. 【Usage Scenarios】 - Monitoring the strain and displacement of structures such as bridges and tunnels - Monitoring the flow and pressure of water supply and sewage systems and gas pipelines - Monitoring the temperature and vibration of facilities such as substations and power plants 【Benefits of Implementation】 - Early detection of abnormalities through real-time remote condition monitoring - Increased efficiency of inspection work and cost reduction - Realization of preventive maintenance through data accumulation and analysis

• Other measuring instruments

In the logistics industry, it is essential to grasp the location information of cargo during transportation and the inventory status within warehouses in real-time. Particularly for cargo that requires temperature control and the transportation of expensive precision equipment, accurate location information is crucial for maintaining quality and preventing theft. Inaccurate location information or delays in recording can lead to misdelivery or loss. Our IoT visualization wireless analog signal input system utilizes UNISONet to send data from various measuring instruments with analog signals to the cloud, enabling real-time data collection and visualization. 【Use Cases】 - Tracking the location of cargo during transportation - Inventory management within warehouses - Location information management for forklifts and other equipment 【Benefits of Implementation】 - Tracking of cargo and prevention of loss - Increased efficiency in inventory management - Safety management for workers

• Other measuring instruments

In quality control within the manufacturing industry, it is important to maintain product quality and suppress the occurrence of defective products. In particular, measurement data such as temperature, pressure, and flow rate during the manufacturing process form the backbone of quality control. If this data is accurately recorded and abnormalities can be detected early, it can prevent quality issues from arising and lead to improved production efficiency. The IoT visualization wireless analog signal input system continuously uploads data from various measuring instruments that output analog signals such as 4-20mA or 0-10V to the cloud, automatically records it, and issues alarms in case of abnormalities, thereby streamlining quality control operations. 【Usage Scenarios】 - Monitoring various measurement data on the manufacturing line - Data analysis in the quality control department - Early response to abnormal occurrences 【Benefits of Implementation】 - Improved operational efficiency through automatic recording of measurement data - Early detection of abnormalities through real-time data monitoring - Promotion of quality improvement through data analysis

• Other measuring instruments

This system features the ability to continuously upload data from measuring instruments with analog outputs such as 4-20mA or 0-10V to the cloud using UNISONet. The data is automatically recorded in the cloud, and alarms can be triggered in case of anomalies. ■ Devices that can be connected to the cloud include: - Laser distance meters - Dust meters - Noise meters - pH meters - Flow meters - Liquid level indicators, etc. ■ Benefits include: - No need to go to the measuring instrument to collect data - No need for handwritten records - No need to take the measuring instrument to the site every time for measurements - Minimization of damage through early detection of anomalies ■ Can be used for purposes such as: - Reduction of patrol inspection tasks - Immediate alarms during anomalies - Automatic measurement, recording, and monitoring ■ What’s impressive: - Continuous automatic measurement and recording - Measurement values can be monitored in real-time from a distance - Data can be downloaded from the cloud - Centralized management of various measuring instruments This system is available for sale, rental, and W-rental. *For more details, please refer to the PDF document or feel free to contact us.

• Other measuring instruments

This product is a wireless temperature and humidity measurement system equipped with the unique mesh wireless UNISONet and the standard data logger "Ondotori" from T&D Corporation. It is effective in various locations such as construction sites during concrete curing and painting work, food factories, logistics warehouses, and data centers. ■ Features - Measurement range up to 20 km - Maximum number of sensor connections: 100 units ■ Amazing aspects - Wireless connectivity reaches far and connects easily - No power supply needed at the measurement site; wireless means no complicated wiring work - Just install and turn on the switch, and it automatically starts measuring, recording, and monitoring - Real-time monitoring and various setting changes are possible from a distance ■ Benefits - Reduction in wiring costs - Less manual effort for measurement, recording, and monitoring - Cost savings on power supply installation - Reduction in inspection tasks ■ Possible uses - Automation of measurement tasks - Real-time monitoring from a distance - Automatic measurement, recording, and monitoring This system is available for sale or rental. *For more details, please refer to the PDF document or feel free to contact us.

• Measurement and analysis equipment leasing and rental