All Categories at a Glance

Detecting anomalies through noise patterns. Acoustic sensors diagnose wear and malfunctions in machines based on sound patterns. This precise method reduces unplanned downtime and ensures efficient maintenance planning.

Detecting anomalies through noise patterns. Acoustic sensors diagnose wear and malfunctions in machines based on sound patterns. This precise method reduces unplanned downtime and ensures efficient maintenance planning.

Identification of risky behavior such as sudden braking or excessive speed. Companies can thereby offer targeted training and improve safety standards.

Asset Management

Learn how companies in our network are using modern IoT solutions to efficiently manage their assets and optimize material flow. Could you potentially reduce costs by automatically tracking inventory, avoiding bottlenecks, and identifying maintenance needs early on?

Asset Tracking/ Track and Trace

Learn how companies use asset tracking and track-and-trace technologies to keep a close eye on valuable goods at all times. From logistics to production—benefit from proven solutions from our network that make your processes more streamlined and secure.

Meet audit requirements effortlessly. In regulated industries such as pharma, food, or chemicals, conformity and certification requirements are particularly demanding. With traceability solutions, you can seamlessly document all relevant data – from the origin of raw materials through production processes to the end consumer. Integration of QR codes on products allows direct access to this data. This promotes transparency in the supply chain, strengthens customer trust, and facilitates cooperation with regulatory authorities.

Automated creation of reports and logs for audits and compliance requirements. Digital systems enable seamless traceability and ensure efficiency in audit processes.

Automatic spare parts ordering is triggered by defined threshold violations or status changes. Maintenance orders or spare parts requests are created automatically and transferred via integration into ERP systems such as SAP. The entire process is system-driven and requires no manual intervention.

Battery storage systems handle load shifting and ensure backup power supply. IoT controllers dynamically manage charging and discharging depending on PV yields or electricity prices. This makes the energy system resilient, reduces costs, and significantly increases supply security.

Automated data basis for transparent billing. Billing automation automatically creates structured and traceable data records for billing and operations. Measured values are captured with timestamps, stored centrally, and continuously updated. Consumption data is thus available directly to relevant internal and external stakeholders for automated billing systems.

Making hidden problems visible. Sensors monitor cables and bolts for wear or defects. Problems are identified in time before they cause greater damage, which increases operational safety.

Detect damage before it gets costly. Breaks or cable stress occur unexpectedly – with serious consequences for production and asset availability. Condition monitoring systems for break detection continuously monitor critical movements and report the smallest deviations in real time. This prevents consequential damage and enables targeted maintenance planning.

Detect damage before it gets costly. Breaks or cable stress occur unexpectedly – with serious consequences for production and asset availability. Condition monitoring systems for break detection continuously monitor critical movements and report the smallest deviations in real time. This prevents consequential damage and enables targeted maintenance planning.

Detect damage before it gets costly. Breaks or cable stress occur unexpectedly – with serious consequences for production and asset availability. Condition monitoring systems for break detection continuously monitor critical movements and report the smallest deviations in real time. This prevents consequential damage and enables targeted maintenance planning.

Cable and chain monitoring detects breaks, abrasion, and structural changes in cables and chain links based on movement anomalies and physical measurements. Parameters monitored include tensile and compressive forces, bending radii, insulation resistance, temperature, current, and vibration events.

Cable and chain monitoring detects breaks, abrasion, and structural changes in cables and chain links based on movement anomalies and physical measurements. Parameters monitored include tensile and compressive forces, bending radii, insulation resistance, temperature, current, and vibration events.

Irregularities in coating processes, for example, lead to quality defects. IoT-supported sensors measure temperature, humidity, and particle concentration in real time. Automatic adjustments to coating parameters ensure a uniform, defect-free coating.

Condition Monitoring

Learn how other companies in our network are successfully implementing condition monitoring. Our verified use cases show you which technologies and solutions are being used and which partners can support you. Condition monitoring is all the rage—we present proven application examples

Consumption data capture continuously collects measured values for energy and media consumption and presents them centrally in a visualized form. Consumption trends and statuses are clearly prepared and made traceable over defined time periods.

This leads to a reduction in overstocking, minimizes waste, and improves the overall supply chain. Seamless operations can also be ensured through integration with enterprise systems such as ERP or WMS.

Corrective maintenance

Discover how other companies in our network use corrective maintenance to quickly resolve issues as soon as they arise. When alarms appear in the system, why not immediately identify which components are affected and what steps are needed to resolve the issue?

IoT-supported analyses examine the relationships between machine settings and product quality. This data helps to identify faulty processes and make targeted adjustments to ensure consistently high quality.

Energy monitoring systems make it possible to compare energy consumption across multiple sites. This creates transparency and facilitates the implementation of best practices for maximum efficiency.

IoT sensors and AI-supported algorithms from our network enable precise prediction of energy demand. This allows smart production planning, shifting energy-intensive processes to periods with lower electricity prices.

Digital Documentation

Industrial IoT makes digital documentation more powerful than ever before. Companies benefit from automated data collection, simplified management, and real-time access to all relevant information. Our platform offers proven solutions that increase transparency and efficiency.

Transparency from the very first process step – through intelligent IoT systems. Many other operations in our network optimize their goods receipt with IoT solutions that automatically consolidate data from delivery notifications, scans, and condition information. Geofencing features enable automatic capture upon arrival at the company premises.

Machines and products are equipped with digital nameplates containing important information such as maintenance intervals or material compositions. This supports sustainability and recyclability through digital product passports.

Production steps and quality controls are documented directly in digital form, without the detour via paper logs. This improves accuracy and saves time in analysis and tracking.

Traceability with IoT data – for quality, compliance, and efficiency. Other companies in our network rely on digital traceability solutions to map complete process histories – from goods receipt to delivery. IoT sensors automatically capture time, location, condition, and ID of objects. These IoT traceability systems help meet regulatory requirements and quickly isolate quality issues. → Proven solutions from our partners show: combining traceability and asset tracking increases production security.

Automation and real-time tracking of orders. This leads to more efficient coordination between dispatchers and drivers and reduces delays.

With modern sensor technology and smart data analysis, you can detect damage before it escalates. Whether it involves leaks in water pipes, overheating in electrical systems, or mechanical wear – continuous monitoring makes it possible to identify problems early and take targeted action. This not only saves costs but also protects your assets and infrastructure in the long term.

With modern sensor technology and smart data analysis, you can detect damage before it escalates. Whether it involves leaks in water pipes, overheating in electrical systems, or mechanical wear – continuous monitoring makes it possible to identify problems early and take targeted action. This not only saves costs but also protects your assets and infrastructure in the long term.

With modern sensor technology and smart data analysis, you can detect damage before it escalates. Whether it involves leaks in water pipes, overheating in electrical systems, or mechanical wear – continuous monitoring makes it possible to identify problems early and take targeted action. This not only saves costs but also protects your assets and infrastructure in the long term.

Don’t rely on spreadsheets or isolated data sources – modern IoT platforms connect and analyze data from various systems in real time. This context-aware information makes it possible to assess risks precisely and act proactively instead of reacting to problems. This not only strengthens operational security but also minimizes downtime.

Small parts such as packaging or consumables are often inconspicuous but essential for production processes. With traceability solutions, you can efficiently manage the inventory of these C-parts. Automated reorders and the prevention of overstocking minimize costs and prevent production stoppages. These digital systems considerably reduce manual effort and thereby free up capacity for strategic tasks.

Through real-time monitoring and data-driven analysis of emissions, companies can adapt and specifically optimize their processes. This helps to comply with legal requirements and implement long-term sustainability strategies.

Sensor technology for gas and pollutant detection (e.g. CO₂, NOx, CH₄, VOC)

Sensor technology for gas and pollutant detection (e.g. CO₂, NOx, CH₄, VOC)

Sensor technology for gas and pollutant detection (e.g. CO₂, NOx, CH₄, VOC)

Employee Safety

Industrial IoT helps companies identify physical risks early on and improve employee safety. Hazardous machinery, heavy loads, and challenging environments such as construction sites are among the most common risks. Connected technologies help mitigate these hazards in a timely manner.

Companies use IoT-supported systems to make optimal use of their self-generated energy. Surplus energy is specifically used in storage systems or for electric vehicles instead of being fed into the grid. This saves costs and maximizes energy efficiency.

Energy efficiency analysis evaluates captured energy data and assigns consumption to individual machines, shifts, or production lines. Based on these evaluations, consumption structures, load profiles, and deviations are analyzed. This enables the systematic identification of inefficient consumption patterns and savings potential.

Energy efficiency analysis evaluates captured energy data and assigns consumption to individual machines, shifts, or production lines. Based on these evaluations, consumption structures, load profiles, and deviations are analyzed. This enables the systematic identification of inefficient consumption patterns and savings potential.

Energy Monitoring

Learn how companies in our network are gaining transparency and identifying opportunities for savings by tracking and analyzing their energy consumption. Could you potentially reduce costs by shifting your energy consumption to times when energy rates are lower?

IoT-supported evacuation systems calculate the safest routes in real time and guide employees safely out of danger zones. This minimizes chaos and maximizes safety in emergency situations.

Wearable devices detect falls in real time and automatically trigger emergency protocols. This is particularly effective in industrial or isolated work environments where rapid assistance is critical.

Efficient maintenance of filter systems. By monitoring pump and fan systems, maintenance events can be predicted and optimized. Sensors capture the status of filter mats or wear data, enabling proactive planning of service interventions.

Efficient maintenance of filter systems. By monitoring pump and fan systems, maintenance events can be predicted and optimized. Sensors capture the status of filter mats or wear data, enabling proactive planning of service interventions.

Fleet Management

Discover how other companies in our network have used IoT solutions to optimize their fleets, reduce operating costs, and boost productivity. Take advantage of proven technologies and real-world solutions.

IoT-based sensors continuously monitor volume flows of air or water. This data helps to better control consumption, deploy resources in a targeted manner, and sustainably improve the overall energy and resource efficiency of the system.

An unstable gas flow can significantly affect the quality of coating or melting processes, for example. IoT-based monitoring systems analyze gas pressure and flow in real time and regulate them dynamically to ensure uniform material distribution and optimal process conditions.

An unstable gas flow can significantly affect the quality of coating or melting processes, for example. IoT-based monitoring systems analyze gas pressure and flow in real time and regulate them dynamically to ensure uniform material distribution and optimal process conditions.

Fraud and Loss Prevention

Learn how companies are using modern IoT solutions and cybersecurity to reduce fraud and prevent losses. Discover proven tools and strategies from our network to minimize risks and comprehensively secure your business.

Optimization of fuel consumption through targeted analysis of idle times and driving behavior. This reduces operating costs and lowers the CO₂ emissions of your fleet.

IoT solutions enable companies to monitor air quality and pollutant levels. One example is Indoor Air Quality Management with LoRaWAN® solutions that reduce aerosol spread in enclosed spaces such as gyms or retail stores and minimize infection risks.

Precise level measurement without maintenance effort! Battery-powered sensors automatically record groundwater levels, for example – even in hard-to-reach areas. The maintenance-free technology enables efficient and reliable data collection.

Precise level measurement without maintenance effort! Battery-powered sensors automatically record groundwater levels, for example – even in hard-to-reach areas. The maintenance-free technology enables efficient and reliable data collection.

Thermal ceiling sails enable demand-based climate control in individual rooms. IoT sensors capture temperature and occupancy data, which actuators use to control valves and pumps. This enables energy-efficient and comfortable operation in real time.

Smart sensors identify potential hazards in work environments such as chemical plants or manufacturing areas. Companies can thus take preventive action before accidents occur.

Fluctuations in humidity or excessive particle concentration can impair production processes and lead to defective coatings or material contamination. IoT sensors measure these environmental parameters in real time and enable automatic adjustment of process conditions to avoid scrap.

RFID, barcode, 2D code – automated identification for logistics and manufacturing. In real time and without line of sight: operations in our network automatically identify loads upon goods receipt, transfers, or at loading gates. IoT-based identification solutions enable reliable capture of pallets, containers, or returnable packaging and integrate seamlessly into ERP or MES systems. → This reduces manual interventions and sources of error – through technologies already in productive use.

Material residues in containers or larger machines and systems in our network disrupt processes and impair the quality of end products. IoT systems identify residues through optical or chemical analyses and ensure timely cleaning or adjustment of production parameters.

Networked communication systems enable rapid alerting and targeted action instructions for employees and emergency teams. This reduces response times in critical situations.

Component traceability ensures that individual parts can be clearly identified at any time – from raw material inspection through internal testing to delivery to the customer. Innovative technologies such as mark-free recognition methods offer a solution to challenges such as damaged labels or unreadable codes. This not only protects against counterfeiting but also reduces the complexity of integration into existing systems.

The implementation of sensors and IoT devices enables continuous monitoring of inventory. Companies can thereby track the location and condition of units, pallets, crates, or batches in real time.

With batch or lot traceability, you can monitor the entire lifecycle of your products – from raw material procurement to the finished product. This includes the identification of specific batches, tracking of process data, and documentation of all intermediate steps. This traceability enables you to identify weaknesses in the supply chain, minimize bottlenecks, and ensure compliance with quality standards. In addition, recalls can be carried out more efficiently and in a more targeted manner, saving costs and time.

Microcracks are often not visible to the naked eye but can significantly reduce the load-bearing capacity and service life of components. IoT-supported image recognition and non-destructive testing methods enable early detection of microcracks before they lead to structural problems.

The energy management system consolidates all energy flows digitally on a single platform. IoT controllers capture data, while SCADA and cloud systems visualize it. Companies gain transparency, meet ESG requirements, and increase efficiency and supply security through data-driven decisions.

IoT-based track-and-trace solutions for industrial material flows. Workpiece carriers, equipment, or containers are tracked along the production line using combined positioning and identification technology. Operations in our network use these asset tracking systems to document movements, handovers, and responsibilities seamlessly – across locations and in an audit-proof manner. → Real-time data and cloud integration make tracking an integral part of modern IIoT platforms.

Experiential knowledge from long-serving employees is a key success factor in production – but is often stored only in people's heads. IoT technologies make it possible to systematically capture this knowledge and make it available in a structured way to other employees.

Leakage Detection (Air) Sensors detect air leaks in compressed air systems and machinery. Continuous monitoring enables the localization of losses and the initiation of targeted corrective measures. Leakage Detection (Gas) Sensors identify gas leaks in pipelines and systems. Permanent monitoring supports safe operation and reduces unplanned downtime. Leakage Detection (Water) Sensors detect water escaping from systems and pipelines. Deviations in water flow are identified early to prevent damage and downtime.

Leakage Detection (Air) Sensors detect air leaks in compressed air systems and machinery. Continuous monitoring enables the localization of losses and the initiation of targeted corrective measures. Leakage Detection (Gas) Sensors identify gas leaks in pipelines and systems. Permanent monitoring supports safe operation and reduces unplanned downtime. Leakage Detection (Water) Sensors detect water escaping from systems and pipelines. Deviations in water flow are identified early to prevent damage and downtime.

Leakage Detection (Air) Sensors detect air leaks in compressed air systems and machinery. Continuous monitoring enables the localization of losses and the initiation of targeted corrective measures. Leakage Detection (Gas) Sensors identify gas leaks in pipelines and systems. Permanent monitoring supports safe operation and reduces unplanned downtime. Leakage Detection (Water) Sensors detect water escaping from systems and pipelines. Deviations in water flow are identified early to prevent damage and downtime.

Efficiency in warehouse and production. Real-time monitoring of fill levels in tanks or silos enables precise control of production processes. Automatic notifications facilitate reordering and prevent overflows or bottlenecks.

Efficiency in warehouse and production. Real-time monitoring of fill levels in tanks or silos enables precise control of production processes. Automatic notifications facilitate reordering and prevent overflows or bottlenecks.

Efficiency in warehouse and production. Real-time monitoring of fill levels in tanks or silos enables precise control of production processes. Automatic notifications facilitate reordering and prevent overflows or bottlenecks.

Component traceability ensures that individual parts can be clearly identified at any time – from raw material inspection through internal testing to delivery to the customer. Innovative technologies such as mark-free recognition methods offer a solution to challenges such as damaged labels or unreadable codes. This not only protects against counterfeiting but also reduces the complexity of integration into existing systems.

Fluctuations in temperature or pressure can cause material distortion and production defects. IoT sensors and associated software monitor critical parameters during production – for example during the coating of turbine blades – and dynamically adjust processes to prevent warping or crack formation.

Humidity measurement captures ambient conditions in the form of relative humidity and its changes over defined time periods. It is used to monitor air conditions even in hard-to-reach or non-visible locations.

Humidity measurement captures ambient conditions in the form of relative humidity and its changes over defined time periods. It is used to monitor air conditions even in hard-to-reach or non-visible locations.

IoT-supported localization in industry – cross-site and centimeter-precise. Whether tugger trains, tools, or trolleys – using modern positioning technologies such as Ultra-Wideband (UWB) or Bluetooth Low Energy (BLE), industrial companies in our network track their assets in real time. These IoT solutions for object localization not only save valuable search time but also enable automated process triggers (e.g. geofencing-based notifications) and the mapping of a digital twin on a central platform. → Practice-tested solutions from our partners provide maximum transparency on the shopfloor.

Artificial intelligence based on IoT data and sensor technology for object recognition in industrial environments. Using image processing, laser technology, or AI-based algorithms, IoT solutions at other operations in our network identify moving objects based on shape, size, or coding. This enables sorting, quality assurance, or rejection to be automated directly. → These proven IIoT applications reduce error rates and accelerate processes.

Companies with photovoltaic systems use IoT-supported systems to make optimal use of their self-generated energy. Surplus energy is specifically used in storage systems or for electric vehicles instead of being fed into the grid. This saves costs and maximizes energy efficiency.

Small parts such as packaging or consumables are often inconspicuous but essential for production processes. With traceability solutions, you can efficiently manage the inventory of these C-parts. Automated reorders and the prevention of overstocking minimize costs and prevent production stoppages. These digital systems considerably reduce manual effort and thereby free up capacity for strategic tasks.

With batch or lot traceability, you can monitor the entire lifecycle of your products – from raw material procurement to the finished product. This includes the identification of specific batches, tracking of process data, and documentation of all intermediate steps. This traceability enables you to identify weaknesses in the supply chain, minimize bottlenecks, and ensure compliance with quality standards. In addition, recalls can be carried out more efficiently and in a more targeted manner, saving costs and time.

The photovoltaic system is intelligently integrated into energy management. IoT-based forecasts and real-time measurements adapt consumers to yields and electricity prices. This maximizes self-consumption, reduces grid feed-in, and lowers costs in the long term.

Every crate, every container – in exactly the right place. Our user companies rely on automated storage location tracking with IoT sensors to detect occupancy, vacancies, or misplacements in real time. In warehouse or production environments, optical, RFID, or capacitive sensors provide precise status information – for example to control tugger trains or for material replenishment. → This creates order in material flow – with solutions already in productive use in our network.

IoT systems detect peak loads and compensate for them using batteries or alternative energy sources. This prevents high grid loads, avoids peak demand tariffs, and saves energy costs in the long term.

Transparency in the parcel process: Traceability goes beyond production and also offers significant advantages for goods receipt. Sensors can measure the dimensions and weight of incoming packages and compare this data with master data. This creates transparency across the entire logistics chain and improves collaboration with suppliers. The traceability of individual shipments also helps to clarify discrepancies and increase the efficiency of goods management.

The implementation of sensors and IoT devices enables continuous monitoring of inventory. Companies can thereby track the location and condition of units, pallets, crates, or batches in real time. This leads to a reduction in overstocking, minimizes waste, and improves the overall supply chain. Seamless operations can also be ensured through integration with enterprise systems such as ERP or WMS.

Predictive Maintenance

Discover how other companies in our network use predictive maintenance to identify problems early on—before they lead to downtime. Could a spike in voltage be an early warning sign of a malfunction?

With carbon footprint monitoring, companies capture CO₂ emissions per produced unit. This enables emissions along the entire supply chain to be measured, reduced, and aligned with regulatory requirements.

In supply chain management and for high-value goods, protection against counterfeiting is essential. Track-and-trace technologies and blockchain-based solutions create transparency and prevent tampering. This builds trust in your products and strengthens your brand in the market.

Quality Management

Learn how companies in our network are optimizing their production quality and identifying sources of error early on by using modern IoT sensors and data analysis. Could you potentially reduce scrap by detecting quality deviations in real time and taking immediate corrective action?

Damage caused by environmental influences or human error can result in significant costs. With networked devices and sensors that collect and analyze data around the clock, you can immediately detect anomalies and take action. This considerably reduces repair and replacement costs.

Centralized collection of distributed measurement and status data. Remote reading enables the automated retrieval of operational, status, and consumption data from systems and infrastructure without manual on-site reading.

Centralized collection of distributed measurement and status data. Remote reading enables the automated retrieval of operational, status, and consumption data from systems and infrastructure without manual on-site reading.

Centralized collection of distributed measurement and status data. Remote reading enables the automated retrieval of operational, status, and consumption data from systems and infrastructure without manual on-site reading.

IoT-based sensors continuously monitor volume flows of air or water. This data helps to better control consumption, deploy resources in a targeted manner, and sustainably improve the overall energy and resource efficiency of the system.

Real-time planning of optimal routes to minimize costs and reduce delivery times. For example, in one case the loading capacity of trucks was increased from 22 to 28 tonnes, leading to more efficient utilization.

Traceability in production means documenting every step of the manufacturing process and making data available in real time. This enables the identification of process errors and the prevention of quality problems. Data packages can be correlated and processed together to gain deeper insights into the efficiency and accuracy of manufacturing. This not only creates transparency but also helps to reduce production costs through process optimization.

C-parts, such as small components or consumables, often present a challenge in inventory management. By deploying IoT solutions, companies can monitor the demand for these materials in real time and trigger automated reorders. This ensures a continuous supply, reduces process costs, and prevents production interruptions due to missing materials.

Energy monitoring systems make it possible to compare energy consumption across multiple shifts or sites. This creates transparency and facilitates the implementation of best practices for maximum efficiency.

Charging infrastructure for electric vehicles is dynamically controlled to avoid peak loads and optimally utilize PV surpluses. IoT systems manage charging priorities and ensure that mobility remains sustainable, cost-efficient, and grid-stable.

Lighting management enables automated control of individual luminaires based on presence, daylight, and time profiles. IoT sensors and addressable controllers not only save energy but also increase flexibility in the use of logistics halls.

Smart metering refers to the digital capture and transmission of consumption and operational data via intelligent metering systems. Measured values are automatically recorded, assigned to time periods, and made centrally available.

Using data-driven forecasts, companies in our network can purchase energy proactively, whether through short-term spot market purchases or long-term PPAs (Power Purchase Agreements).

By analyzing electricity tariffs and real-time prices, companies shift energy-intensive processes to more cost-effective time windows. This significantly reduces energy costs and optimizes utilization.

Production data, maintenance logs, and operating manuals are stored centrally in digital archives. This simplifies access and management for employees in production and management.

Submetering describes the separate capture of consumption data within a higher-level supply unit. Individual consumers, areas, or usage units are measured separately and clearly assigned. The captured data enables a differentiated view of consumption within buildings, systems, or infrastructure.

Sustainability (ESG)

Achieve your sustainability goals with IIoT. Connected technologies help companies reduce emissions, use resources more efficiently, and meet regulatory requirements. We’ll show you proven approaches that combine environmental, social, and economic goals.

Digital temperature monitoring for extreme conditions! In our network, we implement IoT-based temperature measurements for steam pipelines – using e.g. LoRaWAN or mioty® sensors that capture temperatures and operate maintenance-free for over 10 years.

Digital systems for tension and thrust force monitoring detect mechanical anomalies early to prevent downtime and damage. Integrated into machine controls, they enable immediate responses, protecting processes and assets.

Digital systems for tension and thrust force monitoring detect mechanical anomalies early to prevent downtime and damage. Integrated into machine controls, they enable immediate responses, protecting processes and assets.

Cold and heat storage systems serve as energy storage and buffers. IoT-controlled hydraulic systems such as the Zortström ensure stable temperature levels and optimize the runtime of heat generators. This enables load shifting and increases supply security.

Tool wear leads to quality fluctuations and increased scrap in many operations. Many companies use vibration and force sensors that capture wear conditions in real time and enable timely replacement.

Traceability

Transparent supply chains are key to efficient production and regulatory compliance. Companies in our network have optimized their processes and met industry standards through innovative traceability solutions. Take advantage of proven approaches and benefit from the support of our community of experienced users and partners to achieve your specific traceability goals.

Transparency over production performance and runtimes. By capturing pulse counts, cycle times, utilization, and throughput directly at the machine, production processes become continuously measurable. The resulting data provides a reliable basis for analyzing runtimes, downtimes, and performance deviations of individual assets or production lines.

Energy consumption is captured on a per-unit basis, for example per machine, system, device, or usage unit. The measurement data is centrally visualized and evaluated so that consumption trends, peak loads, and deviations are clearly displayed. The analysis enables a structured examination of energy use and consumption development at various levels.

Tracking of operating hours, mileage, and maintenance cycles for all vehicles. This enables better resource planning and extends the service life of fleet vehicles.

In many manufacturing processes – for example in vacuum-based systems – even the smallest leaks are critical as they affect material quality and process stability. IoT sensors continuously monitor negative pressure and immediately detect leaks to prevent production downtime and quality losses.

Precise diagnostics through vibration analysis. Monitoring bearings or heat treatment furnaces provides early warning signals for temperature deviations or mechanical irregularities. This ensures production quality and prevents damage.

Precise diagnostics through vibration analysis. Monitoring bearings or heat treatment furnaces provides early warning signals for temperature deviations or mechanical irregularities. This ensures production quality and prevents damage.

Efficient tracking and optimization of production waste reduces waste and increases material utilization. With IoT solutions, waste volumes can be minimized and recycling opportunities improved.

High scrap rates burden production in many operations in our network and increase costs. IoT sensors and data analysis help to identify and eliminate error sources at an early stage. Real-time monitoring of machine parameters minimizes quality fluctuations and sustainably reduces scrap.

Smart IoT sensors monitor water quality in real time. Parameters such as pH value, nitrate content, dissolved oxygen, and conductivity are continuously measured to detect deviations early and ensure compliance with quality standards.