IoT devices are revolutionizing the business world: with real-time data and predictive maintenance, they not only enhance production processes but also offer entirely new business opportunities and innovation potentials.
Production facilities operate autonomously, supply chains become more efficient, and maintenance costs decrease – these smart technologies are the key to digital transformation, propelling companies into a connected future.
What are IoT Devices?
IoT devices (IoT = Internet of Things) are connected physical objects that communicate with each other over the internet and exchange data. These devices, such as smart thermostats, connected machines, or wearables, collect and analyze information to optimize processes and enhance convenience. IoT devices are used in various fields, ranging from smart homes and healthcare to industry.
Efficiency Increase: IoT devices enable the automation of many business processes, saving time and resources – especially crucial during times of skilled labor shortages. Real-time monitoring of machines and systems allows companies to respond quickly to issues and optimize operations, resulting in overall higher efficiency.
Cost Reduction: IoT devices improve maintenance strategies through predictive maintenance, reducing costly downtime and repairs. Additionally, IoT systems can monitor and optimize energy consumption, leading to significant energy cost savings.
Better Customer Experience: By utilizing IoT devices, companies can offer personalized services and respond more quickly to customer needs. This enhances customer satisfaction and strengthens customer loyalty.
Sustainability and Environmental Awareness: IoT devices help companies improve their environmental footprint by optimizing energy consumption and resource use. This supports sustainable business practices and contributes to reducing the ecological footprint.
How do IoT Devices work?
IoT devices are revolutionizing the interaction with our environment by making everyday objects smart and connected. But how exactly do these technologies work? In this section, we explore the fundamental mechanisms behind IoT devices, from networking and data collection to analysis and automation.
Sensors and Data Collection
Each IoT device is equipped with various sensors that continuously collect data from the environment. These sensors can measure everything from temperature and humidity to motion and light. The collected data is sent to the central system or the cloud, where it is further processed and analyzed.
Data Transmission and Cloud
The collected data is then stored and processed in the cloud or on local servers. This is typically done through wireless technologies such as Wi-Fi, Bluetooth, or cellular networks like 4G/5G, NB-IoT, or LTE-M. This connectivity allows the devices to exchange data in real-time and respond to external instructions.
Data Control and Analysis
After the transmission of raw data, the exciting phase of data preparation begins. Here, the data is filtered, cleaned, and formatted into a usable state. This ensures that only the most relevant data is available for analysis, providing the foundation for reliable and effective decision-making.
Evaluation and Control
Based on the subsequently analyzed data (through algorithms and machine learning), IoT devices can automatically perform actions or provide recommendations. In the industry, for example, IoT systems can schedule machine maintenance before issues arise, minimizing downtime.
The Most Important IoT Devices
IoT devices are increasingly permeating various aspects of life, offering innovative solutions to everyday challenges. In this overview, we examine the most significant types of IoT devices transforming how we live and work.
Sensors: Sensors are fundamental IoT devices that measure physical parameters such as temperature, humidity, motion, light, and pressure. They continuously collect data from the environment and transmit this information to other devices or central systems for analysis. Sensors are used in numerous areas, from monitoring industrial processes to smart homes and environmental surveillance.
Actuators: Actuators are IoT devices that perform physical actions based on received commands or data. They convert electrical signals into mechanical movements or other forms of energy. Examples include motors, valves, and relays. Actuators play a crucial role in automation by controlling machines and systems to optimize processes.
Wearables: Wearables are portable IoT devices used in various business sectors, particularly in healthcare and occupational safety. Smartwatches, fitness trackers, and medical devices like heart rate monitors track employees' health and safety in real time. In industrial settings, wearables can monitor workers' locations and safety, detect emergencies, and enable quick responses.
Smart Home Devices: While often found in private households, smart home devices are increasingly used in businesses, particularly in office buildings and facilities (smart buildings). Smart thermostats, lighting systems, security cameras, and access control systems contribute to energy savings, security, and comfort. These devices can be centrally controlled, helping to reduce operating costs and increase efficiency.
Industrial IoT Devices: Industrial IoT (IIoT) devices are specialized IoT devices used in industrial environments to monitor and optimize production processes. This includes connected sensors and actuators, industrial control systems, and machine monitoring tools. IIoT devices aid in predictive maintenance, improve operational efficiency, and enable remote monitoring and control of production facilities.
How Safe are IoT Devices?
One of the biggest concerns with the use of IoT devices is security. Companies must ensure that data is encrypted and that devices are regularly updated to close security gaps. However, there are effective solutions that address these challenges. Thanks to these measures, IoT devices are now significantly more secure and provide a reliable foundation for innovative and efficient business processes.
Sicherheitsmaßnahmen für IoT Geräte
End-to-End-Verschlüsselung: Implementierung starker Verschlüsselungstechnologien für die Datenübertragung zwischen IoT Geräten, um Abhör- und Manipulationsversuche zu verhindern.
Sichere Authentifizierung: Verwendung komplexer Passwörter und Multi-Faktor-Authentifizierung (MFA) zur Sicherung der IoT Geräte und Netzwerke.
Regelmäßige Updates: Sicherstellen, dass IoT Geräte regelmäßig Sicherheitsupdates und Patches erhalten, um bekannte Schwachstellen zu schließen.
Netzwerksegmentierung: Trennung von IoT Geräten in eigene, isolierte Netzwerke, um die Ausbreitung von Angriffen zu verhindern.
Datenschutzrichtlinien: Implementierung strenger Datenschutzrichtlinien, die den Umgang mit gesammelten Daten regeln und sicherstellen, dass nur notwendige Informationen erfasst und verarbeitet werden.
Gerätemanagement: Nutzung von IoT Management-Plattformen zur zentralen Verwaltung und Überwachung der Geräte, um schnell auf Sicherheitsvorfälle reagieren zu können.
Sensibilisierung und Schulung: Schulung der Mitarbeiter im sicheren Umgang mit IoT Geräten und Bewusstseinsschaffung für Sicherheitsrisiken und Datenschutzbestimmungen.
IoT Devices in Practice: Dachser Tracking Solution
Dachser relies on an impressive fleet of around 8,500 swap bodies to efficiently transport goods between its European branches. However, this flexibility poses a challenge for real-time tracking. To address this, the swap bodies have been equipped with state-of-the-art tracking modules from Mecomo and Telekom SIM cards. These trackers continuously send their position data via LTE-M to the cloud, where it can be precisely analyzed and visualized. Thanks to roaming and GSM fallback, connectivity remains stable throughout Europe. This robust technology allows for always knowing the location of the swap bodies and accurately calculating arrival times.
„With the tracking solution, we can only optimize our own processes but also offer our customer greater transparency“
Lars Relitz, Head of Corporate Digital Innovation & Development at Dachser
Future Prospects for IoT Devices
The future prospects for IoT devices are promising and diverse. With the advancement of technologies such as 5G, artificial intelligence, and machine learning, IoT devices will become even more powerful and versatile. They will not only further enhance efficiency and automation in homes and businesses but also enable new applications in areas such as healthcare, agriculture, and smart buildings. These developments will lead to an even more connected and optimized world where IoT devices play a central role.
IoT-Hardware: Zertifizierte Geräte für Ihre IoT-Projekte
IoT-Hardware: Zertifizierte Geräte für Ihre IoT-Projekte
Would you like to implement your IoT project easily and securely? Whether it's IoT devices, cellular modules, or a specialized Software Developer Kit – together with our partners, we offer certified hardware that is tailored to your specific needs.
Would you like to implement your IoT project easily and securely? Whether it's IoT devices, cellular modules, or a specialized Software Developer Kit – together with our partners, we offer certified hardware that is tailored to your specific needs.
2016 hat Anna erstmalig IoT-Themen bei der Deutschen Telekom begleitet. Seitdem betreut sie Kunden Use Cases unterschiedlichster Branchen – immer fokussiert auf den Nutzen, den das Internet of Things generieren kann. Im IoT-Blog beschreibt sie echte Anwendungsfälle und welchen Mehrwert diese Innovationen für die Marktakteure, deren Geschäftsmodelle oder gar ganze Branchen bieten.
Interested? Click here:
07.11.2024
Condition monitoring: An introduction to modern maintenance technology
Condition monitoring is more than just a technology - it protects machines from unexpected failures, can monitor goods carriers worldwide and is therefore a strategic advantage in an increasingly digitalized and competitive world. In this blog article, you will learn how condition monitoring can improve your business processes sustainably and efficiently.
Intelligent helpers: IoT solutions for skilled workers
They monitor monotonous process steps, take over preventative device maintenance, or increase occupational safety as warning systems: IoT solutions. Are they also the answer to the shortage of skilled labour?
Skilled labor shortage, declining order volumes due to high material costs, and rising energy prices – the construction industry faces numerous challenges. To address these, innovative approaches are needed. A promising solution is the digitalization of the construction site through the use of the Internet of Things (IoT). But what exactly does "digital construction site" mean? Learn more in this blog article!