Avoid Network Interruptions During the Hurricane Season

Hurricane Season is Aproaching. What Is Your Plan for Network Interruptions?

Hurricane season presents significant challenges for major industries, particularly those in Water/Wastewater, Oil & Gas, Utilities and Power Sectors. It is essential to have stable, secure networks to ensure continuous operations, especially during extreme weather events when the demand for uninterrupted service is critical. By implementing strategic preparations and leveraging robust wireless communication technologies, companies can mitigate risks to their network infrastructure.  Below are some best practices to avoid or minimize network interruptions during hurricane season:

1.Conduct a Comprehensive Risk Assessment

Before hurricane season starts, assess the vulnerabilities of your network infrastructure. Identify potential weak points such as exposed communication towers, substations, or critical control centers that may be susceptible to high winds, flooding, or power outages. Use this information to create a tailored disaster recovery plan that includes wireless redundancy and emergency communication protocols.

2. Deploy Robust, Reliable Wireless Modems

Traditional wired communication networks are highly susceptible to physical damage during hurricanes. Transitioning to or supplementing with robust wireless modems can offer enhanced reliability. Wireless modems designed for harsh environments are built to withstand extreme weather conditions and can ensure continued network connectivity, even when wired connections fail. These devices should be part of an overall strategy to create resilient, weather-resistant networks.

3. Establish Redundant Communication Pathways

Redundancy is key to maintaining uninterrupted communication during natural disasters. Companies should create multiple communication pathways that use different technologies—such as satellite, cellular, and radio frequency (RF) wireless systems. If one pathway goes down, the others can continue to operate. Utilizing both wireless and wired systems ensures that data transmission, monitoring, and control functions remain active even in the event of infrastructure damage.

4. Leverage Cloud-Based Monitoring Solutions

Cloud-based solutions enable companies to remotely monitor and manage critical infrastructure even when physical access is limited due to storm conditions. Cloud-based SCADA systems, in conjunction with wireless communication technologies, allow for real-time monitoring, data logging, and control from any location. This ensures that key operations such as water treatment, power distribution, and emergency services can be managed efficiently, even from offsite locations.

5. Ensure Backup Power for Communication Infrastructure

Maintaining power to communication devices is essential for keeping networks operational during a hurricane. Companies should install reliable backup power systems, such as uninterruptible power supplies (UPS) or generators, at critical nodes. Powering wireless communication equipment during an outage ensures that even when grid power is lost, the network remains operational and data continues to flow

6. Pre-position Emergency Communication Kits

Pre-positioning emergency communication kits, which include portable wireless modems, batteries, and antennas, allows utility teams to quickly deploy backup communication systems in the field. These kits can be distributed to key locations prone to outages, ensuring that crews have the tools they need to restore communication quickly in an emergency. They provide critical backup if the primary communication system is compromised.

7. Collaborate with Local Authorities and Other Utilities

Coordination with local government agencies and neighboring utility providers can improve disaster preparedness. Utilities should be part of local emergency response planning to ensure that communication protocols are in place in the event of widespread outages. Collaborating with other utility companies also allows for the sharing of resources, such as wireless modems and backup communication tools, to minimize downtime

8. Implement Regular Testing and Drills

Testing communication infrastructure and conducting emergency drills before hurricane season is essential to ensure that all equipment is functioning as expected. Regular drills simulate potential hurricane impacts and test the response of communication systems. These exercises help teams identify areas for improvement and ensure that both personnel and equipment are ready to handle real-world emergencies.

9. Adopt Real-time Data Analytics for Predictive Maintenance

Using real-time data analytics in conjunction with wireless modems allows utility companies to monitor the health of their networks and predict failures before they occur. Predictive maintenance solutions provide early warnings of equipment failures, enabling proactive repairs before a storm hits. This helps utilities avoid network downtime and ensures a smoother recovery process post-storm.

Conducting a physical inspection of modem and antenna installations beforehand can help prevent unnecessary downtime and save resources. Ensuring the stability of antennas and antenna towers is crucial for maintaining a clear radio line of sight across the wireless network. Modems are typically the most electrically sensitive components in a wireless network, with their internal radio modules vulnerable to damage from environmental electrical noise. Installing a lightning arrestor can help dissipate charge buildup (a typical scenario during a storm) in the modem-antenna system installed indoors or outdoors.

10. Plan for Post-Hurricane Recovery

Even with the best preparations, utility companies must have a robust plan for post-hurricane recovery. This includes deploying wireless modems and mobile communication units to restore network operations quickly in the aftermath of a storm. Recovery plans should prioritize the most critical infrastructure, such as water treatment plants and power substations, and include specific procedures for restoring wireless communications in stages as conditions improve.

Conclusion: Be Proactive, Be Resilient, Be Prepared

Utility companies providing water/wastewater, and power services face significant challenges during hurricane season. By implementing these best practices—ranging from deploying robust wireless modems to establishing redundant communication pathways and collaborating with local authorities—utilities can minimize the risk of network interruptions and maintain critical services during and after severe weather events. Leveraging wireless communication technology is a key element in building resilience and ensuring operational continuity, even in the face of the most extreme conditions. By following these steps, companies can not only protect their network infrastructure but also provide reliable service when it’s needed most.

 

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WHY CHOOSE DATA-LINC?

DATA-LINC GROUP  strives to offer unparalleled technical assistance and service from the start of your project to completion and beyond. Our technical team will work with you to provide you a thorough RF-Path study that evaluates the local terrain, the frequency signals, and all the other factors that might impact your wireless network design. 

We strongly believe in providing a customer-centric solutions and service that beat customer expectations and in helping to ensure that our customers get the right product for the job, even if it means referring them to a competitor. 

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Enhance Wireless Connections: Optimize with a Propagation Study

Designing a New Wireless Network? Start With a Propagation Study

Propagation studies provide an optimal RF path to obtain a highly reliable signal for a robust wireless connection.

Having a cost-effective and a reliable data-communication wireless network is an important factor in a faster, smarter and well-integrated enterprise. But designing the network can be challenging, time-consuming and costly. This is especially true if the local landscape is unknown. A number of factors can affect the network performance – tall trees, buildings, RF noise, etc. To overcome the challenge, DATA-LINC GROUP recommends starting your project with a propagation study. In the long-run it will save you time, effort and money.

A propagation study, also known as RF-Path study, is a computer-generated evaluation that helps in planning wireless networks to ensure optimal performance from each site in the system. The study gives an accurate point-to-point and point-to-multipoint wireless link performance analysis based on RF theory. This evaluation accounts for any physical obstructions, frequency problems and power regulations encountered in the path between the different sites, and gives you the best RF path for the most reliable data transfer even in the harshest environments.

Propagation Path Study
WiDe analysis shows LoS between two sites
DLG Antennas - Master to Remote
A propagation study for this cement factory determined the type and height of antennas to ensure line-of-sight for reliable signal transmission.

More specifically, the results of the RF path study can reveal:

  • If LoS (Line of Sight) is available or if there are any physical obstructions in the RF path
  • The optimal height of the antenna and tower to make LoS possible if clearance is not available
  • If Repeaters are needed for any of the sites
  • The dBi and the type of antenna required for each site
  • The link budget1 for each site and if the Fresnel zone allows clearance
  • Information on diffraction3 loss analysis
  • The length of coaxial cable required for each site
  • The expected signal strength for each site after installation
  • A theoretical summary of how the entire network will perform after installation

1A link budget is an accounting of all of the power gains and losses that a communication signal experiences in the system.

2The Fresnel zone is the area around the visual line-of-sight that radio waves can spread into after they leave the antenna.

3The diffraction loss is defined as the attenuation by diffraction when a line-of-sight path is obstructed.

Propagation study helps with planning multiple links with Repeaters and their RF paths
Example of multiple links with Repeaters and their RF paths

1A link budget is an accounting of all of the power gains and losses that a communication signal experiences in the system.

2The Fresnel zone is the area around the visual line-of-sight that radio waves can spread into after they leave the antenna.

3The diffraction loss is defined as the attenuation by diffraction when a line-of-sight path is obstructed.

Example of site survey for three linking sites

A propagation study is also a very helpful tool when a problem occurs within your existing network with signal-strength or data-transfer. Some of the problems that are most commonly identified are:  

Example of site survey for three linking sites

 

  • Sunny day network – AKA – only works when its good weather 
  • Intermittent communication
  • Functioning network suddenly stops transmitting or intermittently drops signals
  • Signal fading
  • Low bandwidth availability
  • Power regulation issues

WHY CHOOSE DATA-LINC?

DATA-LINC GROUP  strives to offer unparalleled technical assistance and service from the start of your project to completion and beyond. Our technical team will work with you to provide you a thorough RF-Path study that evaluates the local terrain, the frequency signals, and all the other factors that might impact your wireless network design. 

We strongly believe in providing a customer-centric solutions and service that beat customer expectations and in helping to ensure that our customers get the right product for the job, even if it means referring them to a competitor. 

Ready to get started?

Start your new wireless design project with a thorough evaluation of your RF-Path landscape today! 

Already familiar with the RF Path for your project?
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Check Out WiDe

DATA-LINC GROUP's Wireless Network Designer

WiDe -Wireless Network Designer Tool

Now design your own wireless network within minutes

DATA-LINC WiDe - Wireless Network designer tool
WiDe - wireless network design support

A quick, easy-to-use tool that will help you design your network without needing to know product part numbers. Within minutes the design will also give you a complete bill of materials when finished.

  • No-charge, value-added service 
  • Quick network design with just few clicks 
  • No need to learn PN, Create parts list as you design 
  • Share BOM with your customers
  • Save list for future updates
  • Dynamic design gives instant results for any changes 
  • Includes antenna height, wireless range, data throughput and much more