We have newly released a battery-powered water level gauge. It has achieved significant cost reductions by eliminating the need for conventional solar power systems and other equipment. It can be installed in locations without power as long as a 4G connection is available. It is now possible to operate in areas where observation was previously given up! *For more details, please download the PDF or contact us.

We are receiving inquiries about weather measures, creative ideas, and technical proposals at construction sites across the country. We have revised the catalogs for the "Weather Forecast Analysis Distribution System - Disaster Prevention Panel," "Weather Observation Device - N Sensor," "Alarm Transmission Device - Disaster Prevention Light," and "Web Camera." Please be sure to obtain the latest information and make use of it at your sites.

As an option for the emergency light, we have newly released a three-color display light. In addition to the standard electronic bulletin boards and rotating lights, we offer three types of three-color display lights. You can set the standard values (danger levels) in three stages, and the light will change colors progressively according to the level of danger. With just a glance, you can assess and implement measures corresponding to each level. We have a proven track record in both civil engineering and construction. Please feel free to utilize our creativity and technical proposals. *For more details, please download the PDF or contact us.

The battery-operated water level gauge has ranked 71st in the Ipros Urban Development Product Ranking (a total of 229,409 items). You can check the details here: http://kensetsu.ipros.jp/ranking/product/general/?rankNo=71 Since its release, the battery-operated water level gauge has received many inquiries. The observed water level can be viewed on the dedicated homepage [Disaster Prevention Board], and it is also possible to integrate with business chat applications (LINEWORKS, direct, Wowtalk, Microsoft Teams). Displaying on digital signage is also possible. If you are not yet familiar with it, please take a look at the PDF materials or feel free to contact us.

The newly released battery-operated water level gauge has achieved significant cost reductions compared to conventional products. Conventional water level gauges required a 100V commercial power supply or a solar power system. As the name suggests, the battery-operated water level gauge runs on batteries, allowing it to be installed anywhere as long as there is a 4G connection. Since there is no need to prepare a power supply and installation can be easily done by the customer, significant cost reductions can be achieved. Please feel free to download the materials and make use of them.

We have made functional improvements to Compass PLUS! It can be utilized for safety measures in marine construction, port construction, as well as for technical proposals and creative ideas. Compass PLUS, Ministry of Land, Infrastructure, Transport and Tourism NETIS Registration Number QSK-210001-VE, has undergone functional improvements! The improvements are as follows: Improvement in prediction frequency and update frequency Before Improvement: Prediction Frequency: every 12 hours, Update Frequency: once a day, Update Time: 6:00 AM After Improvement: Prediction Frequency: every 6 hours, Update Frequency: twice a day, Update Times: 5:00 AM and 4:40 PM For more details, please visit our website. https://product.sysmet.jp/bousaiban/k_152.html

The dedicated meteorologist of Sysmet will provide easy-to-understand explanations of weather-related terms and the characteristics of seasonal weather! On the night of December 15, temperatures in the Kanto region and other areas rose sharply above 10°C. For more details, please download the PDF.

The dedicated meteorologist of Sysmet will clearly explain meteorological terminology and the characteristics of weather for each season! The Föhn phenomenon refers to the occurrence when moist air rises from the windward side of a mountain, crosses over the summit, and descends on the leeward side as warm, dry air. For more details, please download the PDF.

The "Disaster Prevention Board," which provides pinpoint weather forecasts, has partnered with the on-site business chat "direct." As a result, users can receive notifications of weather forecasts and observation values that exceed the standard values on the "direct" chat room. 《Information from the linked Disaster Prevention Board》 1. Exceeding forecast standard values - 1-hour rainfall, continuous rainfall - Average wind speed, thunderclouds - Above set temperature, below set temperature - Heatstroke index 2. Exceeding observation standard values - 1-hour rainfall, continuous rainfall - Average wind speed, maximum instantaneous wind speed - Above set temperature, below set temperature - Heatstroke index 3. Weather warnings and alerts issued by the Japan Meteorological Agency - Special warnings (storm, heavy rain, blizzard, heavy snow) - Warnings (storm, heavy rain, flood, blizzard, heavy snow) - Advisories (heavy rain, heavy snow, snowstorm, thunder, strong winds, flood)

The disaster prevention system 【ZEROSAI】 has implemented a notification function integration with the 【Disaster Prevention Board】 and various business chats. Please utilize it for information sharing during disasters, safety measures on-site, creative ideas, and technical proposals! The business chats that have been integrated are as follows: LINEWORKS direct Wowtalk Microsoft Teams Previously, notifications were only sent via email when weather information exceeded threshold values, but now notifications will also be sent through your business chat to prevent information leaks. Information from the integrated Disaster Prevention Board includes: 1. Exceeding forecast threshold values - 1-hour rainfall, continuous rainfall - Average wind speed, thunderclouds - Above set temperature, below set temperature, heatstroke index 2. Exceeding observation threshold values - 1-hour rainfall, continuous rainfall - Average wind speed, maximum instantaneous wind speed - Above set temperature, below set temperature 3. Warnings, alerts, and special warnings - Special warnings (storm, heavy rain, blizzard, heavy snow) - Alerts (storm, heavy rain, flood, blizzard, heavy snow) - Warnings (heavy rain, heavy snow, snowstorm, thunder, strong winds, flood)

We will introduce a case study of the 【Compass PLUS】 (NETIS registration number QSK-210001-VE). It can be utilized not only for safety measures but also for creative ideas and technical proposals. Field Challenges: Key Points of Evaluation 【Operating Environment】 Install 【N Sensors】 and 【Web Cameras】 on-site to check the sea condition forecasts and weather observation information along with the camera footage within 【Compass PLUS】. Additionally, install a 【Disaster Prevention Light】 above the office to share information with workers on-site. 【Purpose of Implementation】 〇 Understanding weather and sea conditions is essential for construction near the coast. 〇 It allows viewing sea condition forecast information, weather observation information, and camera footage on the same site. 〇 The 【Disaster Prevention Light】 raises awareness of weather disaster prevention among on-site workers. 〇 When adverse weather prevents access to the site, use the 【Web Camera】 to remotely check the site conditions. ■ Proposal (Example) For more details, please download the PDF.

We will introduce a case study of the "Digi-Jellyfish" (NETIS registration number QSK-170002-VE). The data from the "Digi-Jellyfish" can be viewed along with wave height and wind speed forecasts and typhoon information using "Compass PLUS" (NETIS registration number QSK-210001-VE). It can be utilized not only for safety measures but also for creative ideas and technical proposals. On-site challenges: Key points in evaluation [On-site challenges] - Many people are involved on-site, and it is necessary to grasp marine information and manage processes quickly. - It is necessary to observe wave heights during cable laying and issue instructions to halt work. - It is essential to understand significant wave heights across the entire worksite. - Submission of documentation to the client is required. [Operations to solve challenges] For details, please download the PDF.

We will introduce a case study of the disaster prevention system ZEROSAI (NETIS registration number QS-150021-VE). It can be utilized not only for safety measures but also for creative ideas and technical proposals. Challenges on Site: Key Points in Evaluation 【Operating Environment】 - Install weather observation devices [N Sensor] and [Battery-operated Water Level Gauge] upstream of the site to conduct real-time observations of rain, wind, temperature, humidity, and water levels at the site. Additionally, install [Disaster Prevention Lights] upstream, midstream, and downstream. 【Purpose of Introduction】 - Since flooding in the upstream area affects operations, it is necessary to manage processes considering the rain conditions and to prepare for sudden rainfall such as torrential downpours and linear precipitation zones. - In the event of work stoppage due to severe weather or temperature rise, it is necessary to submit the situation at that time as supporting documentation. ■ Proposal (Example) For details, please download the PDF.

We will introduce a case study of the natural disaster prevention system ZEROSAI (NETIS registration number QS-150021-VE). It can be utilized not only for safety measures but also for creative ideas and technical proposals. 【Challenges on Site】 - Due to being a hot spring town in the mountains, the weather conditions are harsher compared to urban areas, and general weather information is insufficient. - When typhoons or linear precipitation zones occur, roads become flooded, making it difficult to even reach the site. - There are also inns nearby, and it is necessary to encourage local residents to evacuate. 【Operations to Solve the Challenges】 For more details, please download the PDF.

We will introduce a case study of the disaster prevention system ZEROSAI (NETIS registration number QS-150021-VE). It can be utilized not only for safety measures but also for creative ideas and technical proposals. 【Challenges on Site】 - There are no barriers around the site, so strong wind measures must be implemented with a sense of urgency during work. - Accurate judgment of work feasibility is necessary for effective project management. - We also want to enhance the image among local residents. 【Operations to Solve Challenges】 For more details, please download the PDF.

We will introduce a case study of the 【Compass PLUS】 (NETIS registration number QSK-210001-VE). It can be utilized not only for safety measures but also for creative ideas and technical proposals. Challenges on Site: Key Points of Evaluation 【Challenges on Site】 - There are no obstructions, and wind speed must be strictly managed during crane operations, necessitating the installation of caissons. - Due to crane operations, it is essential to grasp not only the predicted wind speed but also the observed values. - When the operational threshold is exceeded, information must be shared simultaneously across the entire site. 【Operations for Solving Challenges】 Please download the PDF for more details.

We will introduce a case study of the natural disaster prevention system ZEROSAI (NETIS registration number QS-150021-VE). It can be utilized not only for safety measures but also for creative ideas and technical proposals. Challenges on-site: Key focus points for evaluation [Operational Environment] - Install the [N Sensor] near the site office to manage rainfall and wind speed. - Use the real-time wind speed values observed by the [N Sensor] to determine whether to stop crane operations. - Issue a work stoppage directive when the real-time rainfall observed by the [N Sensor] exceeds the threshold value. [Purpose of Introduction] - Due to the proximity to the sea and the lack of obstructions, the wind speed often exceeds the work stoppage threshold of 10 m/s two to three times a day. It is essential to understand wind conditions, as crane operations must absolutely stop when wind speeds reach 10 m/s or more. - Rainfall during concrete pouring or painting work prevents operations, making it crucial to predict, observe, and timely grasp the rainfall situation. ■ Proposal (Example) For more details, please download the PDF.

We will introduce a case study of the natural disaster prevention system ZEROSAI (NETIS registration number QS-150021-VE). It can be utilized not only for safety measures but also for creative ideas and technical proposals. Challenges on Site: Key Points in Evaluation [Operating Environment] - Install the [N Sensor] on site to conduct real-time observations of rain, wind, temperature, and humidity. Additionally, set up a [Web Camera] to check the construction site conditions from the site office and staff smartphones. Since there is no power supply on site, a solar power generation system will be installed. [Purpose of Implementation] - In the event of a sudden heavy rain during construction, rapid on-site response becomes difficult, so it is necessary to avoid risks such as sediment runoff and landslides in advance. - Sediment runoff can also adversely affect the quality of cut and fill, so it is essential to predict heavy rain occurrences in advance and take countermeasures. ■ Proposal (Example) For more details, please download the PDF.

We will introduce a case study of the natural disaster prevention system ZEROSAI (NETIS registration number QS-150021-VE). It can be utilized not only for safety measures but also for creative ideas and technical proposals. Challenges on-site: Key points for evaluation 【Operating Environment】 Install the 【N sensor】 and 【Web camera】 at the top of the slope on-site. This allows for monitoring the entire site from above. Additionally, since there is no power supply on-site, operations will be conducted using a solar power system. 【Purpose of Implementation】 - The slope is 10 meters high, and due to the unstable ground after the earthquake, monitoring rainfall is essential. - A tool for centralized management of linear precipitation band information and weather forecasts is necessary. - If it rains, going to the site itself is dangerous, so remote monitoring is required. ■ Proposal (Example) For more details, please download the PDF.

Introducing a case study of the disaster prevention system ZEROSAI (NETIS registration number QS-150021-VE). It can be utilized not only for safety measures but also for creative ideas and technical proposals. 【Challenges on Site】 - There is a distance from the site office to the actual site, requiring personnel to move to confirm the site conditions. - During earthworks, it is necessary to be cautious of the flow of soil, so accurate understanding of weather conditions is essential. 【Operations to Solve the Challenges】 Please download the PDF for more details.

Thank you very much for using our services. The registration number for 【Compass PLUS】, which was registered in the Ministry of Land, Infrastructure, Transport and Tourism's new technology information provision system NETIS in 2021, has changed to QSK-210001-VE. We will continue to strive to provide information that satisfies everyone, so please make use of Compass PLUS! ≪Ministry of Land, Infrastructure, Transport and Tourism NETIS (New Technology Provision System)≫ https://www.netis.mlit.go.jp/NETIS

In winter, when temperatures fall below the standard, there are often situations where it becomes necessary to halt construction or implement concrete curing measures at the site. With 【ZEROSAI】, the email notification function and the 【business chat integration】 function allow for automatic notifications via email or business chat when temperatures below the standard value are predicted or observed. For example, by setting this threshold to 3°C, notifications will be sent to the registered email address if a forecast predicts temperatures below 3°C up to 24 hours in advance. For information on 【Concrete Curing Management Low Temperature Email Notifications】, please refer to the link below: https://product.sysmet.jp/bousaiban/k_113.html For information on 【Business Chat Integration】, please refer to the link below: https://product.sysmet.jp/bousaiban/k_113.html The business chats that can be integrated are as follows: LINEWORKS direct Wowtalk Microsoft Teams

Introducing the convenient features of 【Compass PLUS】 that can visualize ocean conditions. Please make use of it for ocean condition DX. Convenient Feature: Forecast Distribution Map The forecast distribution map displays wave height, period, wave direction, wind speed, and wind direction on a map, along with particle lines. It shows animations every 3 hours up to 72 hours ahead and every 12 hours for up to 10 days ahead. - Coastal Wave (CWM): Displays the latest initial values every 3 hours up to 72 hours ahead. - Global Wave (GWN): Displays the latest initial values every 12 hours up to 264 hours ahead. For more details, please check the link below! https://product.sysmet.jp/bousaiban/k_88.html

■On-site Issues: Focus Points in Evaluation During the construction period, sudden weather changes such as guerrilla rainstorms unique to mountainous areas are anticipated. These can lead to delays in various processes and a decline in quality, requiring extensive discussions for improvement, which in turn leads to further delays. For more details, please visit our company website or product release information. https://product.sysmet.jp/exercise/k_131.html

In construction work, managing wind speed is crucial to prevent falling accidents during crane operations. We will introduce a case study of ZEROSAI implementation at a site where "strong wind measures" is the theme in our technical proposal. For more details, please visit our company website or product release information. https://product.sysmet.jp/exercise/k_44.html

In river construction, it is important to establish a system that allows workers to evacuate quickly in the event of abnormal water discharge. We will introduce a case study of the implementation of ZEROSAI at a site with the theme of "water level measures for river construction" in our technical proposal. We will install 【N sensors】, 【battery-operated water level gauges】, and 【web cameras】 on-site. The 【disaster prevention panel】 will centrally manage the observed rainfall and water level data, camera footage, and weather forecasts for three locations within a 500m mesh of the construction site and upstream area. When a rainfall forecast exceeding the set threshold of XXm is predicted in the upstream river area, automatic alarms can be issued through the 【disaster prevention lights】 installed at the construction site, the "email notification function," and reports via 【external chat tools】. 【Specific operations】 For more details, please see the link below: https://product.sysmet.jp/exercise/k_56.html

Centralized management of wave height predictions and observations in the cloud ■Challenges on site: Key points for evaluation (Example) "The construction area has no barriers, so there are concerns that swells may arrive quickly when the east wind starts blowing, leading to work stoppages. Furthermore, during nighttime construction, the surrounding conditions cannot be visually confirmed, and if work is conducted based solely on general sea condition information, the judgment to stop work may be delayed, making it difficult for the work fleet to retreat." ■Proposal (Example) Weather and sea condition comprehensive portal site Compass PLUS (NETIS registration number QSK-210001-VE) Buoy-type small wave height observation device Digi-Jellyfish (NETIS registration number QSK-170002-VE) will be introduced. Digi-Jellyfish will be installed at the construction site to observe significant wave heights. The data will be viewed on a dedicated website, Compass PLUS, using a 4G connection. Observation data will be displayed along with forecast data in a consolidated manner on PC or tablet via Compass PLUS. If wave heights exceeding the reference value are observed or predicted, an emergency email will be automatically sent to the responsible person. For more details, please visit the Sysmet website https://product.sysmet.jp/

There should be no obstructions, and wind speed must be managed rigorously. Utilizing the new features of 【Compass PLUS】, we will continuously check real-time observed wind speed values along with wind speed forecasts. Additionally, we will share the same information with workers through the 【Disaster Prevention Light】 to achieve visibility across the entire site. 【Operating Environment】 〇 There should be no obstructions, and wind speed must be managed rigorously during crane operations, especially when performing caisson installation work. 【Operating Method】 〇 Manage the process while monitoring wind direction and speed forecasts on 【Compass PLUS】. 〇 During operations, monitor the observed wind direction and speed values with the 【N Sensor】 on 【Compass PLUS】. 〇 If wind speed exceeds the operational standard values, an email notification will be sent to the supervisor, and an emergency alert will be communicated to the workers through the light and sound of the 【Disaster Prevention Light】, enabling rapid communication for work stoppage. 【Purpose of Implementation】 〇 Due to crane operations, it is essential to grasp not only the forecasted wind speed but also the observed values. 〇 When the operational standard values are exceeded, information must be shared simultaneously across the entire site. For more details, please visit the Sysmet website: https://product.sysmet.jp/

Sudden Guerrilla Rainstorms: Measures Against Linear Precipitation Zones ■Challenges on Site: Key Focus Points for Evaluation Example: "○○ Island has a subtropical climate and is occasionally hit by sudden guerrilla rainstorms. How can we implement daily weather measures to detect heavy rain in advance and take preemptive actions?" ■Example of Proposal Introduce the Natural Disaster Prevention System ZEROSAI (NETIS Registration Number QS-150021-VE). Install the [N Sensor] on-site. Utilize the [Disaster Prevention Panel] to grasp real-time weather data and pinpoint weather forecast information with a 500m mesh, enabling early work stoppage and preemptive measures. ■Effects of Implementation For example, with the [Disaster Prevention Panel], it is possible to monitor the rain volume at the site one hour ahead, updated every five minutes, along with the approach of thunderclouds 10km away. This information can be integrated with business chat for notifications. Additionally, by utilizing telephone consultation services with meteorologists, more detailed weather information can be obtained and used for project management. Example: By using the [N Sensor] installed at the construction site to acquire real-time data, it is possible to understand rainfall forecast information from one hour to a maximum of ten days ahead based on actual measurement data and weather data held by Sysmet. This enables rapid response and organization even outside of working hours and on holidays.

■On-site Issues: Focus Points for Evaluation (Example) Proposals for construction methods that consider the surrounding environment ■Proposal (Example) Utilize the 【Natural Disaster Prevention System ZEROSAI】 to conduct pinpoint weather forecasts at a 500m mesh on-site, and manage weather observations and information on warnings and alerts issued by municipalities in a centralized manner on the cloud. Install 【N Sensors】 on-site to utilize observation data to improve the accuracy of WBGT and wind speed predictions. When rainfall of 8mm/s or more is predicted on the disaster prevention board within 24 hours, notify the work supervisor and foreman via email, and automatically inform everyone on the business chat about the disaster prevention board information. Upon receiving the notification, secure the loosened soil surface and drainage channels to prevent the outflow of muddy water and sediment. Conduct on-site inspections when the daily rainfall exceeds 30mm/s. Install multiple 【Web Cameras】 provided by Sysmet Co., Ltd. at various locations (both banks of the construction body, temporary drainage inlet, and outlet) to manage on-site conditions in conjunction with weather information on the cloud.