Manufacturing
Seamless Connectivity, Unmatched Efficiency.
Optimize Your Wireless Factory
We specialize in providing expert service to fill your wireless testing needs
IoT and INDUSTRY 4.0
Wireless networks form the backbone of IoT (Internet of Things) implementations in smart factories. They support the seamless integration of sensors, actuators, and smart devices, enabling autonomous operations and intelligent manufacturing.
4G RELIABLE CONNECIVITY
LTE networks provide robust and reliable connectivity suitable for industrial automation applications. They offer high data rates (up to several hundred Mbps), low latency (up to 10 milliseconds), and wide coverage, supporting real-time monitoring and control.
5G HIGH-SPEED CONNECTIVITY
5G networks provide ultra-fast data rates, low latency (up to 1 milliseconds), and high reliability. This capability supports real-time communication for critical applications such as robotic control, remote monitoring, and augmented reality (AR) maintenance.
PRIVATE NETWORKS
Private networks offer enhanced reliability and resilience compared to public networks. They provide dedicated bandwidth and prioritize traffic, ensuring consistent and predictable communication for critical applications such as real-time monitoring, control systems, and machine-to-machine (M2M) communication.
FACTORY AUTOMATION
Factory automation is evolving rapidly with advancements in wireless networking technologies, enabling enhanced productivity, efficiency, and flexibility in industrial operations. Wireless networks play a pivotal role in transforming factory automation by enabling agile, connected, and efficient manufacturing environments. By leveraging wireless technologies effectively and addressing key considerations such as reliability, security, and performance optimization, manufacturers can unlock the full potential of Industry 4.0 initiatives and achieve sustainable growth.
Benefits of Wireless Networks in Manufacturing:
- Mobility and Flexibility: Wireless networks eliminate the constraints of wired connections, enabling mobile devices, robots, and equipment to move freely within the factory floor. This flexibility enhances operational agility and supports dynamic manufacturing processes.
- Cost Efficiency: Wireless networks reduce installation and maintenance costs associated with traditional wired infrastructures. They offer scalability, allowing factories to expand or reconfigure production lines without the need for extensive rewiring.
- Real-time Data and Monitoring: Wireless connectivity enables real-time data collection and monitoring of equipment performance, production metrics, and environmental conditions. This data facilitates predictive maintenance, process optimization, and decision-making.
- Improved Safety and Ergonomics: Wireless networks contribute to safer working environments by eliminating tripping hazards and reducing exposure to electrical hazards associated with cables. Workers can access real-time information and control systems from safe distances.
levaraging Cellular technology
The integration of 5G and LTE networks in factory automation represents a significant advancement towards achieving Industry 4.0 objectives. These wireless communication technologies offer distinct capabilities and benefits that enhance productivity, efficiency, and flexibility in industrial settings. Private networks also play a crucial role in factory automation environments, enhancing operational efficiency, security, and flexibility. Unlike public networks, which are accessible to multiple users and businesses, private networks are dedicated infrastructures designed specifically for the exclusive use of a single organization, such as a manufacturing facility.
How Optimized Wireless Can Help
Optimized wireless performs on-site wireless network assessments, continuously measuring signal strength, quality, and network reliability across multiple cellular operators.
After completing the test, you will receive a detailed report showing which operator performs best in each portion of your site or route. This includes areas with strong signal, potential dead zones, and estimated average data speeds.
