Private Cellular Networks

RJSH.TECH

When customers need device Privacy and Control

Built and managed independently by the owners, which controls who connects to the network and how it is used. Resilient Network!

Target Customer

Customers seeking robust solutions that provide complete control over network access and usage.

Time to Deploy

The duration of installation activities varies widely, ranging from several weeks to several months, depending on whether the system is passive or active, as well as its size and complexity.

Cost

Typical Range: $0.50 to $5 per square foot.

RJSH.TECH boasts a robust product portfolio, empowering our customers to choose what best suits their needs. We excel in optimizing cost reductions tailored to each unique use case.

Use Case

Manufacturing: Connect robots, sensors, and machines to automate processes.

Healthcare: Enable real-time communication and patient monitoring in hospital’s

Education: Provide high-speed wireless access across a campus.

Logistics: Track assets and vehicles in real-time across large areas.

Technology

Cutting-edge technology delivering in-building connectivity that effortlessly connects all authorized carrier cellular devices, while fostering an environment for IoT device integration.

Let RJSH.TECH quote your project today!

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Here’s how you can implement a private cellular network for specific connectivity needs

Identify Use Case Requirements

  • Industrial IoT: If you need to connect sensors, machines, or automated systems, a private cellular network can support high volumes of devices with real-time communication.
  • Enterprise Communication: For secure internal communication (voice, video, data), private networks offer high security and control, especially for remote locations or within campus environments.
  • Critical Applications: For healthcare, logistics, or energy sectors, a private network can support critical applications that require low latency, high reliability, and secure data transmission.

Select Spectrum and Network Technology

  • Spectrum Choice: You can use unlicensed, licensed, or shared spectrum such as CBRS in the U.S. for LTE/5G networks. Decide if you need licensed spectrum for more control or can use shared spectrum like CBRS for cost efficiency.
  • Network Type: Choose between Private LTE or Private 5G depending on the level of bandwidth and speed needed. Private 5G is ideal for advanced use cases like augmented reality (AR), virtual reality (VR), and automation that require ultra-low latency and high data throughput.

Deploy Infrastructure

  • Base Stations/Small Cells: Install small cells or base stations around the area where coverage is needed. These devices transmit cellular signals across the localized area.
  • Core Network: Deploy a local or cloud-based core network that handles authentication, security, and management of the devices connected to your network.
  • Edge Computing (Optional): Integrate edge computing nodes if you require fast data processing close to the source, reducing latency for mission-critical tasks.

Integrate Devices

  • Ensure all devices (such as smartphones, tablets, industrial machines, IoT sensors) that need connectivity are CBRS-capable or compatible with the private network’s spectrum.
  • Devices must be equipped with SIM cards or eSIMs tied to the private network to authenticate and use the network.

Manage and Secure the Network

  • Access Control: Implement access control measures like SIM-based authentication to regulate which devices or users can connect to the network.
  • Network Monitoring: Use monitoring tools to track network performance, identify bottlenecks, and ensure smooth operation.
  • Security Protocols: Deploy advanced encryption and security protocols to protect data as it moves through the private network.

Optimize for Connectivity

  • Optimize your private cellular network for different environments. For indoor connectivity, you may use distributed antenna systems (DAS) or small cells, while for outdoor settings, macro cells or a network of small cells may be needed.
  • Capacity Planning: Ensure the network has sufficient capacity to handle the expected number of devices and data usage, especially for IoT-heavy deployments.

Use Cases

  1. Manufacturing: Connect robots, sensors, and machines to automate processes.
  2. Healthcare: Enable real-time communication and patient monitoring in hospitals.
  3. Education: Provide high-speed wireless access across a campus.
  4. Logistics: Track assets and vehicles in real-time across large areas.

In Summary

By following these steps, private cellular networks can provide dedicated, secure, and reliable wireless connectivity for a variety of industrial and enterprise applications.