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Benefits of business applications at a glance:
LAN and WLAN – Two well-known networks.
LPWAN (low-power WAN) – Low power, high range and minimum infrastructure costs.
UWB – Ultrawide band.
BLE (Bluetooth Low Energy).
5G networks – High data volumes + Speed.
NB-IoT and LTE-M – Leverage existing networks to transfer data.
LAN and WLAN – Two well-known networks.
Two of the most well known names are Local Area Network (LAN) and Wireless Local Area Network (WLAN). They both have the advantage that they can transmit large volumes of data due to their large bandwidth, something which is now also possible over 5G networks. This attribute makes LAN, WLAN and 5G perfect for transmitting camera recordings, sounds and control commands for machinery and self-driving vehicles requiring relatively large volumes of data and low latencies. However, these benefits are counterbalanced by the high infrastructure costs as the more the more data there are, the more expensive it becomes. Furthermore, data can only be transmitted via LAN and WLAN over short distances. For these reasons, other kinds of networks that allow new IoT use cases, are growing in importance. Read on to find out more.
LPWAN (low-power WAN) – Low power, high range and minimum infrastructure costs.
LoRa (long range), NB-IoT and Mioty are all LPWAN networks with excellent building coverage and low energy requirements making it possible to transmit data between sensors and objects up to 15 kilometres apart, albeit with a low data throughput. The benefits are low power consumption and a long range, plus the technology can connect a large number of sensors with a battery life of up to 15 years per device. In the real world, that means LPWAN technology is ideal for multiple use cases and requires little infrastructure. This in turn makes it easy to upgrade. Another benefit is the sensors’ long life means there is less need for maintenance. This technology is, therefore, used in smart metering to record real-time water and power consumption. LoRa is used in multiple application areas including smart cities, asset tracking, retail, logistics, agriculture, smart buildings and smart factories.
UWB – Ultrawide band.
Ultra wideband is a radio-based communications technology used for short-range, fast and stable data transfers. Best of all, UWB allows the precise location and movement of objects in a room to be tracked down to 15 centimetres. In terms of IoT, UWB is perfect for use on production lines and in logistics as it reduces the time needed to search for people and goods, optimising paperless logistics and production processes. In the future, UWB will be increasingly rolled in public building and shops to allow micronavigation with a smartphone acting as a navigation tool. Today’s smartphones already have UWB chips built in and the infrastructures necessary are increasingly being installed.
BLE (Bluetooth Low Energy).
BLE is a wireless technology that allows devices within a ten-metre radius to be connected. Compared to regular Bluetooth, BLE is characterised by considerably lower energy consumption and thus lower costs. When it comes to IoT, energy-saving transmission technology plays an important role. BLE technology is predominantly used in buildings where assets are equipped with a sensor that transmits data on location and status.
5G networks – High data volumes + Speed.
5G has established itself as the newest standard in mobile communications, but other areas and businesses are also benefiting from its fast transmission speeds as automating production processes and technologies such as virtual reality (VR) and augmented reality (AR) become increasingly important. What’s more, 5G is used in logistics for self-driving vehicles as well as for camera-based systems creating the basis for fast, high-volume data transfers with very low latencies that are perfect for a variety of data-heavy applications.
NB-IoT and LTE-M – Leverage existing networks to transfer data.
When it come to energy efficiency, coverage within buildings, battery life and costs, low-power wide-area networks are often the first port of call for IoT applications. When goods are being transported, by land, air or sea, you need good network coverage to track where they are, which is where the standardised and licensed mobile communications technology narrowband IoT comes into play. NB-IoT/LTE-M are characterised by outstanding ranges and long battery lives and are, therefore, ideal for applications with low levels of data traffic (e.g. track and trace sensors).
Benefits of business applications at a glance:
Business applications –
Tackle the demands of modern business head on.
Digitalisation is heaping a wealth of unprecedented challenges on companies. The need to connect people, machines, processes and services calls for smart applications that integrate well with corporate networks and facilitate easy management. The prime goal: Permanent access to accurate information. Information is key to creating visibility into business processes for actionable insights. The ability to make the right decisions at the right time hinges on the ability to access all relevant information at all times, and fast. Seamless communication between applications is how companies can leverage the full potential of their IT and maximise their competitive edge. Modern business applications fulfil these individual requirements and Bechtle is by your side to find the right ones for your business. Get in touch.
Please allow cookies to see content from Youtube.
We use Youtube to embed video content on our website. This service may collect data on your activity. For more information, please go to the settings page.
LAN and WLAN – Two well-known networks.
LPWAN (low-power WAN) – Low power, high range and minimum infrastructure costs.
UWB – Ultrawide band.
BLE (Bluetooth Low Energy).
5G networks – High data volumes + Speed.
NB-IoT and LTE-M – Leverage existing networks to transfer data.
NB-IoT and LTE-M – Leverage existing networks to transfer data.
LAN and WLAN – Two well-known networks.
Two of the most well known names are Local Area Network (LAN) and Wireless Local Area Network (WLAN). They both have the advantage that they can transmit large volumes of data due to their large bandwidth, something which is now also possible over 5G networks. This attribute makes LAN, WLAN and 5G perfect for transmitting camera recordings, sounds and control commands for machinery and self-driving vehicles requiring relatively large volumes of data and low latencies. However, these benefits are counterbalanced by the high infrastructure costs as the more the more data there are, the more expensive it becomes. Furthermore, data can only be transmitted via LAN and WLAN over short distances. For these reasons, other kinds of networks that allow new IoT use cases, are growing in importance. Read on to find out more.
LPWAN (low-power WAN) – Low power, high range and minimum infrastructure costs.
LoRa (long range), NB-IoT and Mioty are all LPWAN networks with excellent building coverage and low energy requirements making it possible to transmit data between sensors and objects up to 15 kilometres apart, albeit with a low data throughput. The benefits are low power consumption and a long range, plus the technology can connect a large number of sensors with a battery life of up to 15 years per device. In the real world, that means LPWAN technology is ideal for multiple use cases and requires little infrastructure. This in turn makes it easy to upgrade. Another benefit is the sensors’ long life means there is less need for maintenance. This technology is, therefore, used in smart metering to record real-time water and power consumption. LoRa is used in multiple application areas including smart cities, asset tracking, retail, logistics, agriculture, smart buildings and smart factories.
UWB – Ultrawide band.
Ultra wideband is a radio-based communications technology used for short-range, fast and stable data transfers. Best of all, UWB allows the precise location and movement of objects in a room to be tracked down to 15 centimetres. In terms of IoT, UWB is perfect for use on production lines and in logistics as it reduces the time needed to search for people and goods, optimising paperless logistics and production processes. In the future, UWB will be increasingly rolled in public building and shops to allow micronavigation with a smartphone acting as a navigation tool. Today’s smartphones already have UWB chips built in and the infrastructures necessary are increasingly being installed.
BLE (Bluetooth Low Energy).
BLE is a wireless technology that allows devices within a ten-metre radius to be connected. Compared to regular Bluetooth, BLE is characterised by considerably lower energy consumption and thus lower costs. When it comes to IoT, energy-saving transmission technology plays an important role. BLE technology is predominantly used in buildings where assets are equipped with a sensor that transmits data on location and status.
5G networks – High data volumes + Speed.
5G has established itself as the newest standard in mobile communications, but other areas and businesses are also benefiting from its fast transmission speeds as automating production processes and technologies such as virtual reality (VR) and augmented reality (AR) become increasingly important. What’s more, 5G is used in logistics for self-driving vehicles as well as for camera-based systems creating the basis for fast, high-volume data transfers with very low latencies that are perfect for a variety of data-heavy applications.
NB-IoT and LTE-M – Leverage existing networks to transfer data.
When it come to energy efficiency, coverage within buildings, battery life and costs, low-power wide-area networks are often the first port of call for IoT applications. When goods are being transported, by land, air or sea, you need good network coverage to track where they are, which is where the standardised and licensed mobile communications technology narrowband IoT comes into play. NB-IoT/LTE-M are characterised by outstanding ranges and long battery lives and are, therefore, ideal for applications with low levels of data traffic (e.g. track and trace sensors).
NB-IoT and LTE-M – Leverage existing networks to transfer data.
When it come to energy efficiency, coverage within buildings, battery life and costs, low-power wide-area networks are often the first port of call for IoT applications. When goods are being transported, by land, air or sea, you need good network coverage to track where they are, which is where the standardised and licensed mobile communications technology narrowband IoT comes into play. NB-IoT/LTE-M are characterised by outstanding ranges and long battery lives and are, therefore, ideal for applications with low levels of data traffic (e.g. track and trace sensors).
Benefits of business applications at a glance:
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