SIMPLIFIED DISTRIBUTED EDGE AI PLATFORM
Cowbell
Utilize Cowbell to your advantage! The Cowbell is a distributed computing hub and Platform-as-a-Service to simplify the delivery and management of AI solutions at the edge.
The Cowbell is Rajant’s distributed computing hub and OS platform (hardware, software, OS and networking infrastructure) that enables the delivery and management of applications and AI solutions at the edge.
Product Overview
Scalable Fast-Deployable Distributed Edge Infrastructure and Platform for Managing Your Devices, Data, & Apps.
Cowbell provides a unified management plane across devices, clusters, networks, and applications. CORA runs on every node and manages orchestration, data movement, and autonomous execution under disconnected conditions. ATLAS provides governance, identity, telemetry, lifecycle control, and commercial operations from the cloud.
CORA
The execution plane of the Cowbell Platform, running on edge devices and clusters, managing applications, services, orchestration, and operating autonomously under disconnected conditions.
ATLAS
The governance plane of the Cowbell Platform, managing identity, access, fleet visibility, policy enforcement, and lifecycle control.
Together, CORA and ATLAS establish a clear mental model: execution and autonomy at the edge, governed by policy, identity, and lifecycle control in the cloud.
Already Have Compatible Hardware? Run CORA On It.
Cowbell’s software stack is hardware-agnostic by design. CORA can be deployed on a broad spectrum of existing hardware — from ARM/Linux single-board computers and Intel x86 platforms to NVIDIA Jetson-based systems provided by OEM partners and system integrators. Breadcrumb integration is optional for third-party variants, giving you flexibility over your networking layer.
If you have an existing edge compute investment — a ruggedized server, a tablet fleet, or a custom-built platform — CORA may already be compatible. Reach out to RHI and we’ll assess your hardware for Cowbell certification and integration support.
Key Features
- Unlimited Application Flexibility
- 100% Cloud Independence
- 7+ Modal Data Ingestion
- 100% Local Processing and Analytics
- Multi-Crumb Distributed Computing
Built for Extended Operational Reach
Cowbell is designed to support long-range and mobile operations by distributing compute and analytics across moving nodes. Operational reach scales with the network itself, not a fixed coverage radius or centralized location. By processing data locally across distributed edge clusters, Cowbell enables real-time intelligence across large geographic areas without relying on centralized infrastructure. Distance is determined by node placement and network topology, not a single point of failure.
Why Distributed Computing Matters
Centralized computing creates delays, bottlenecks, and single points of failure, especially in environments where conditions change quickly and decisions must be made in real time. High-volume telemetry, automation, AI workloads, and mobile operations require computing that is physically located where data is generated.
As outlined in our distributed compute white paper, the challenge facing most organizations is not understanding why real-time edge processing is needed. The challenge is understanding how to implement distributed edge computing effectively and at scale.
Cowbell addresses this by distributing compute, storage, and application workloads across nodes, facilities, and environments. Operations remain reliable, responsive, and autonomous even when networks are congested or disconnected.
Explore how distributed computing works in depth on our Distributed Computing page.
What Cowbell Is
Cowbell is Rajant’s distributed computing platform and operating system. It consolidates compute, data handling, device integration, and workload orchestration into one system that can be deployed indoors, outdoors, underground, in motion, or across multiple facilities.
Instead of relying on fragmented solutions that require integrating multiple hardware and software stacks, Cowbell provides an edge complete platform that simplifies deployment and improves operational performance.
Platform-Enabled Solutions
Built on Cowbell, QStat, and DX5, RHI’s solution layer delivers domain-specific systems for operational readiness, clinical research, oncology remote monitoring, and distributed edge decision support.
Operational Readiness Monitoring
MEMOS supports persistent crew and warfighter monitoring in maritime, expeditionary, and high-threat operational environments through passive physiological collection, environmental correlation, command-level dashboards, individual feedback, and longitudinal analytics.
Clinical Trial Infrastructure
Edge-native, air-gapped clinical trial infrastructure for intraoperative studies, perioperative monitoring, translational animal research, device validation, secure hospital-side AI workflows, and multi-omics expansion without public cloud dependency.
Accurate Patient Monitoring at Scale
RHI’s oncology monitoring model combines QStat and Cowbell to deliver continuous, patient-verifiable remote monitoring, flexible home-to-clinic data pathways, reduced manual check-ins via edge-native AI, and earlier adverse-event warning across distributed care environments.
Use Cases Across Demanding Environments
RHI’s core platforms are designed to support high-consequence environments where local compute, resilient communications, and integrated sensing are essential.
Use cases include operational and defense environments, mining, industrial operations, healthcare and research, smart hospitals, animal monitoring, oncology and rural care, ports and terminals, warehouses, and oil and gas.
Partner Ecosystem
RHI’s edge AI stack combines hardware, networking, security, scalability, resiliency, intelligence, managed services, MLOps, applications, and customer AI models.
Current ecosystem collaborations extend the stack across resilient networking, edge AI, video intelligence, autonomy, and translational clinical research.
Core Platform Principles
Distributed Workload Execution
Run applications locally on any node or collaboratively across nodes and maintain continuity during network degradation or outages.
Local Data Processing and Storage
Each node processes data at the point of capture, reducing dependency on upstream networks and stabilizing performance.
Unified Device Integration
Supports sensors, machines, cameras, wearables, robotics, environmental monitors, and industrial equipment.
Real-Time Cluster Coordination
Nodes dynamically join, leave, or move across environments while maintaining service continuity.
Built for Harsh or Mobile Environments
Operates across extreme temperatures, vibration, mining tunnels, construction sites, vehicles, drones, and defense deployments.
Cowbell Capabilities
The Execution Layer for Every Deployment.
Unified Data Fabric
Simultaneously ingests MQTT, ROS, Modbus, RTSP, HTTP/HTTPS, Serial/USB, BLE, sockets, and more through the Sensor Adapter Service.
Air-Gapped Operation
Runs fully autonomously without internet dependency, including offline updates and local artifact distribution.
1-Click AI Deployment
Supports containerized and non-containerized workloads with simplified app delivery, service discovery, and observability.
Elastic Cluster Scaling
Add or remove nodes wirelessly and rebalance workloads across the cluster with redundancy and failure tolerance.
Hardware Agnostic
Runs on Jetson Orin Nano/NX, Raspberry Pi CM5, and additional supported hardware without hard vendor lock-in.
BreadCrumb Advantage
Native Kinetic Mesh® integration enables multi-hop, self-healing connectivity with no central controller dependency.
Security Architecture
RBAC, OIDC SSO, ACL tokens, SSH certificates, encrypted communications, audit logging, and role-scoped operations.
Partner Ecosystem
Open platform for customer applications, third-party integrations, certified hardware partners, and marketplace expansion.
Flying Cowbell
A SWaP-optimized, OEM-grade embeddable edge compute module based on Raspberry Pi CM5 with an integrated DX5 BreadCrumb weighing under 150g. Designed to ride inside drones, UGVs, AMRs, and mobile platforms, including as the embedded compute core of sQuare and Circle Cowbell variants.
DESIGNED FOR
System integrators, OEM builders, and operators who need edge AI and mesh connectivity embedded directly in mobile platforms, without sacrificing size, weight, or power budgets.
USE CASES
- Onboard AI inference and sensor fusion on aerial drones and ground robots
- Tactical reconnaissance and situational awareness in field operations
- Environmental monitoring and remote asset inspection via autonomous platforms
- Emergency response where mobile, mesh-connected edge compute is required
- OEM platform integration as the embedded intelligence core
BUY WHEN
You are building or operating mobile platforms — drones, robots, or vehicles — that need onboard edge AI and resilient mesh connectivity in a minimal Size, Weight, and Power footprint.
Circle Cowbell
A desktop interactive edge intelligence device with an embedded Flying Cowbell running CORA. Features a circular touch display and LED ring for near-field voice-activated and touch-based interaction — supporting AI-driven triage agents, real-time health alerts, VoIP consultation, and local sensor fusion without cloud dependency.
Cowbell provides a unified management plane across devices, clusters, networks, and applications. CORA runs on every node and manages orchestration, data movement, and autonomous execution under disconnected conditions. ATLAS provides governance, identity, telemetry, lifecycle control, and commercial operations from the cloud.
Together, CORA and ATLAS establish a clear mental model: execution and autonomy at the edge, governed by policy, identity, and lifecycle control in the cloud.
DESIGNED FOR
Telehealth, elder care, and clinical environments where patients or at-risk individuals need an always-on, AI-powered care interface that operates locally and escalates intelligently.
USE CASES
- AI-driven patient triage: symptom assessment, risk stratification, and care workflow guidance
- Proactive alerts and escalation for elderly or high-acuity patients
- VoIP-based real-time consultation between patients and remote care providers
- Local visualization of multi-modal health data from wearables and environmental sensors
- Conversational health agents for medication reminders, check-ins, and interventions
BUY WHEN
You are deploying interactive, patient-facing care intelligence, particularly in home care, elder care, or telehealth settings, where local AI and offline operation are critical to continuity of care.onboard edge AI and resilient mesh connectivity in a minimal Size, Weight, and Power footprint.
Square Cowbell
A wall-mounted ambient edge gateway and enterprise Wi-Fi access point with an embedded Flying Cowbell running CORA. Optimized for passive data collection, sensor aggregation, and site-level intelligence — with LED and touch display interfaces for glanceable status. No GPU, designed for large-scale, cost-effective indoor deployments.
DESIGNED FOR
Healthcare facilities, smart buildings, campuses, and elder care environments where ambient intelligence needs to be invisible, scalable, and easy to deploy across many rooms or zones.
USE CASES
- Continuous ambient patient monitoring and fall detection in hospital wards
- Room occupancy sensing and environmental control in smart buildings
- Passive wearable data aggregation and BLE sensor collection across a facility
- Automation triggers and glanceable status displays for clinical staff
- Distributed edge intelligence across student housing, wellness, or care campuses
BUY WHEN
You need to deploy intelligent, always-on sensor collection and edge compute across many indoor spaces, at lower cost and power per node, where aesthetics and unobtrusiveness matter.
EdgeCrumb Cowbell
A ruggedized industrial edge compute and networking appliance based on NVIDIA Jetson Orin Nano/NX or Raspberry Pi CM5, with embedded Rajant AG1 or DX5 BreadCrumb running CORA. Delivers up to 100+ TOPS of AI compute in a hardened enclosure built for static or mobile deployment in extreme environments.
DESIGNED FOR
Organizations running AI-intensive workloads in harsh, outdoor, or infrastructure-poor environments where uptime, security, and raw compute power are non-negotiable.
USE CASES
- Automated surveillance and perimeter monitoring at ports, mines, and construction sites
- Real-time safety analytics and worker health monitoring in oil & gas and industrial facilities
- Asset tracking and anomaly detection across critical infrastructure
- Defense and tactical edge compute in GPS-denied or disconnected environments
- Computer vision and video analytics without cloud dependency
BUY WHEN
Your deployment demands high AI compute, rugged outdoor durability, embedded mesh networking, and multi-node clustering — and you need it to run fully autonomously without cloud connectivity.
Mining
Cowbell provides distributed compute where fixed infrastructure is limited, enabling safer and more efficient mining operations above and below ground.
- Worker safety and exposure monitoring
- Equipment analytics and predictive maintenance
- Blast monitoring and environmental sensing
- Autonomous vehicle and fleet coordination
- Reliable operation in GPS-denied or challenging environments
Defense and Tactical Operations
Edge Infrastructure for Contested, Mobile, Mission-Critical Ops
Cowbell turns Rajant mesh-connected forces, vehicles, sensors, and wearables into a shared operational fabric for command-and-control, local AI processing, readiness monitoring, and low-latency autonomy at the tactical edge.
- Operational Analytics & Resilient C2: Field data, logistics telemetry, and mission apps stay available over Rajant mesh for distributed coordination.
- Anti-Jamming & EW Resilience: Spectrum-adaptive local applications keep comms, workflows, and edge autonomy alive during degraded links.
- FPV & Teleoperation: Cowbell supports low-latency control loops for UAVs, UGVs, and remote systems moving through dynamic topologies.
- Hostile Drone Detection & Mitigation: Multi-sensor inputs are processed locally to track, classify, and counter enemy UAS activity.
- Soldier & Crew Health Monitoring: QStat wearables and environmental sensors stream readiness, wellness, and CBRN exposure data into alerts and dashboards.
- Training & After-Action Analysis: Telemetry, wearable signals, and engagement logs are archived for mission replay and optimization.
Warehousing and Distribution
Cowbell powers local automation, tracking, and robotics to improve throughput and safety in large warehouses and distribution centers.
- Robotics and AGV management
- Asset and inventory tracking
- Motion, safety, and environmental sensing
- Workflow automation and optimization
- Edge processing across large indoor facilities
Industrial and Manufacturing
Cowbell supports real-time automation by processing machine, sensor, and robotics data directly on the factory floor.
- Distributed control across facilities
- Machine and equipment data processing
- Robotics coordination and automation workflows
- Worker and environmental safety monitoring
- Production line analytics and optimization
Oil, Gas and Energy
Cowbell brings computing and decision-making to remote and hazardous energy environments where uptime and reliability are essential.
- Gas detection and exposure analytics
- Remote operations management
- Distributed asset monitoring across rigs, wells, and pipelines
- Environmental and operational data processing
- Rugged performance in outdoor environments
Ports and Maritime
Cowbell delivers real-time coordination, tracking, and automation across dynamic port and maritime environments.
- Crane automation support
- Container and yard movement tracking
- Worker visibility and situational awareness
- AGV and robotics coordination
- Site-wide operational visibility
Public Safety and Emergency Response
Cowbell supports first responders with real-time on-site processing, situational awareness, and resilience during critical incidents.
- Environmental and hazard monitoring
- Local processing during connectivity disruptions
- Real-time alerts and safety information
- Integration with drones and portable sensors
- Support for mobile command and field operations
Hardware Variants
Purpose-Built Hardware for Fixed, Mobile, and Embedded Edge
Every Cowbell node runs CORA, delivering real-time AI processing, multi-node clustering, and resilient Kinetic Mesh® networking. Choose the form factor that matches your deployment — or bring your own compatible hardware.
EdgeCrumb Cowbell
A ruggedized industrial edge compute and networking appliance based on NVIDIA Jetson Orin Nano/NX or Raspberry Pi CM5 Compute Module and an AG1 or DX5 BreadCrumb Module running CORA, designed for mobile or static deployments in harsh, indoor or outdoor environments including mining, oil & gas, ports, construction, and defense, providing resilient edge compute, data aggregation, and AI execution over mission-critical networks for industrial IoT applications.
Flying Cowbell
A SWaP-C optimized OEM-grade, embeddable edge compute and networking appliance based on Raspberry Pi CM5 and a DX5 BreadCrumb weighing <150g running CORA, designed for integration into robots, drones, and mobile platforms including other family of products like the sQuare and Circle Cowbell, enabling onboard AI inference, sensor fusion, and resilient mesh-connected operations.
Circle Cowbell
A desktop, interactive edge intelligence device with an embedded Flying Cowbell running CORA, featuring a circular touch display and LED ring for near-field voice-activated and touch-based human interaction, real-time alerts, and local visualization while also enabling onboard AI inference, sensor fusion, and resilient mesh-connected edge applications.
sQuare Cowbell
A wall-mounted, ambient edge gateway and enterprise Wi-Fi access point with an embedded Flying Cowbell running CORA, optimized for passive data collection, sensor aggregation, and site-level intelligence, with LED and touch display interfaces for glanceable status and lightweight interaction while also enabling onboard AI inference and resilient mesh-connected edge applications.
BYOH (Bring Your Own Hardware)
Cowbell’s software stack is hardware-agnostic by design.
CORA can be deployed on a broad spectrum of existing hardware — from ARM/Linux single-board computers and Intel x86 platforms to NVIDIA Jetson-based systems provided by OEM partners and system integrators.
Breadcrumb integration is optional for third-party variants, giving you flexibility over your networking layer.
If you have an existing edge compute investment — a ruggedized server, a tablet fleet, or a custom-built platform — CORA may already be compatible. Reach out to RHI and we’ll assess your hardware for Cowbell certification and integration support.
Specifications
| Specification | Value |
| Weight: [value] g or kg | 2.99 Kg |
| Dimensions: [L × W × H] | 281 x 214 x 76 mm |
| Form Factor: [description] | Passively cooled rugged IP67 hardware for Industrial IoT applications for Mobile or Static deployments |
| Wireless: [bands, radios, MIMO] | BLE and Wi-Fi 5 (802.11ac) (2.4, 5 GHz) |
| Extensions | Wireless: LTE/5G/LoRa Connectivity by extension sockets Mass Storage: external NVMe up to 120 HDD by extension sockets Security: RiSM Integration |
| Power Input: [voltage + connector] | DC Power: 12 – 28 VDC |
| Power Consumption: [avg / peak] | 25W (typical); 50W (max) @ 12 VDC |
| Environmental Rating: [IP / temp range] | Ambient Temperature: -20 C … +60 C (Operating), -40 C … +85 C (Storage) Humidity: 0 to 95% RH (not verified) Shock and Vibration: (not verified) |
Place Your Order Today
Please fill out the form to be connected with the appropriate Rajant representative for purchasing. We’ll show you how to utilize the our products to your advantage to build a fully mobile, mission-critical mesh infrastructure with high throughput for virtually any automated industrial environment.
From Press release
Rajant Health Inc. Unveils Groundbreaking Omics Analysis Service – Trovomics
Assisting the entire team with the validation of the installation, configuration, and ramp-up of the testing phase was a highly rewarding experience. Through this project, I gained valuable insights into rail operations, which became a key learning opportunity for me. Additionally, I contributed to the delivery of training during the implementation phase, as part of the Sales Engineering team’s responsibilities.
Daniel Souza
Sales Engineer, LATAM – Rajant
You can’t drive video through a hill. There’s just not enough bandwidth. By putting up a Rajant network, it allows us to attach cameras to each of those Rajant nodes. The more we have, the more bandwidth we get.
Andy Stein
Think Vertical Now
The Rajant network is so reliable that you’re going to see an ROI almost immediately. We were able to see a $1M ROI in a year. We paid for the network within six months.
Brian Hunt
JR Simplot Company
The Kinetic Mesh is quite unique. The flexibility of the Rajant hardware is what’s critical.
Dale Birt
FTP Solutions
Open architecture enables interoperability between systems. Rajant is always looking ahead.
Ale Walker
Gray Solutions
For the Royal Wedding, it became quite apparent during the design process that using conventional point-to-point/multipoint would not suffice in the urban environment of Windsor, making Rajant’s mesh network a superior solution.
Thames Valley Police Member | Great Britain
Other wireless technologies, including the latest 5G, all have the same physical limitation: Wireless cannot pass through large, metal container stacks. Rajant’s Kinetic Mesh M2M technology allows the vehicles to talk to each other, which is critical to communicating fleet directions between container stacks.
Matthias Krause
DGWorld
Downtime is really the critical factor in our business. We just cannot afford interruptions, and with Rajant’s technology, we have virtually none.
Ed Darcy
President, Mealey’s Furniture
Our engineering team’s proposal to address this problem only worked because we used Rajant and its unique mesh feature, which is designed for this challenging environment.
Francisco Casals
CTO of Mining Tag Chile
You’ve got to be able to maintain connectivity and access your key performance indicators. Whether it’s sensors, people, or tablets, Rajant enables us to provide not only bandwidth and low latency but also support the needed applications.
Dustin Jurman
Rapid Systems
Using Rajant mesh technology, Kinross has reduced the need for technical staff to deploy repeaters in the network, while improving security and decreasing the number of personnel inside the mine.
Cleiton Arruda
Business Consultant, SITECH/Grupo Sotreq
We found Rajant’s solid track record in military operations reassuring. Its mesh networks have delivered many benefits in those rugged, dynamic environments.
Bob Wingle
Senior Technology Engineer | ASARCO Ray Mine
Find New Insights. Discover the Value.
The Rajant Resource Center
Learn why Rajant is a pioneer in broadband mesh technology through our wealth of value-added resources. See the real results in efficiency and ROI that we’ve helped our customers achieve through case studies, learn more about our technical innovations through white papers, hear first-hand from our team through videos, download data sheets, application briefs, and more.
Whitepaper
The Need for Edge Networks, Distributed Computing and Rajant Cowbell – Accelerating Decisions at the Edge
Whitepaper
Cowbell — Intelligent Edge at Scale
Learn More
Frequently Asked Questions
What is Rajant Kinetic Mesh® technology?
Rajant Kinetic Mesh® is an Intelligent Edge networking technology designed for dynamic, mobile environments where traditional fixed infrastructure falls short.
Unlike conventional wireless systems, it enables continuous, adaptive connectivity across moving assets, people, and devices. Powering Industrial AI applications that demand resilience, low latency, and real-time decision-making.
How do Rajant’s BreadCrumb® wireless nodes enhance network connectivity?
Rajant’s BreadCrumb® nodes are the building blocks of a self-forming, self-healing Kinetic Mesh® network.
Each node communicates directly with every other, creating a web of redundant, high-throughput connections that ensure uninterrupted communication, even when conditions change or assets move.
This decentralized design eliminates single points of failure, maximizing uptime and mobility.
InstaMesh® vs. conventional point-to-point connections.
Conventional point-to-point networks depend on fixed links that can break under motion or interference.
Rajant’s InstaMesh® routing protocol dynamically reroutes traffic in real time, automatically choosing the fastest, most reliable path.
The result: continuous, mobile, and intelligent connectivity for operations that never stop moving.
What are the benefits of Rajant’s InstaMesh® for IIoT applications?
For Industrial IoT environments, InstaMesh® provides the low-latency, adaptive communication required to keep machines, sensors, and AI systems synchronized.
It delivers instant data exchange, self-healing reliability, and scalable capacity, empowering predictive maintenance, automation, and autonomous decision-making at the edge.
How can Rajant Kinetic Mesh support real-time tele-operations in mines?
Mining operations depend on remote visibility and control where connectivity is often limited.
Rajant’s Kinetic Mesh® delivers real-time communication and video streaming for tele-remote equipment and autonomous vehicles, even underground.
Its multi-radio BreadCrumb® nodes maintain reliable signal and low latency. Keeping operators safely in control from any distance.
Rajant Kinetic Mesh network vs. traditional WiFi solutions.
Traditional WiFi networks are static, fragile, and reliant on centralized infrastructure.
Rajant’s Kinetic Mesh® replaces those limits with a dynamic, peer-to-peer architecture, where every node acts as both transmitter and receiver.
This ensures continuous, adaptive coverage, ideal for moving assets and mission-critical applications where downtime is not an option.
Discover Rajant’s solutions for tunnel communications.
Tunnels and underground environments are notoriously difficult for wireless communication.
Rajant’s BreadCrumb® nodes create a linear, mobile mesh network that maintains signal integrity through long corridors, curves, and obstructions.
This allows real-time monitoring, voice, and video for mining, utilities, and public safety teams.
How does Rajant’s technology enhance machine-to-machine communication?
Rajant’s InstaMesh® routing enables machines to communicate directly and continuously, without depending on static access points.
This machine-to-machine (M2M) intelligence ensures critical data is shared instantly, fueling automation, robotics coordination, and AI-driven optimization across industrial environments.
Cost of implementing a Rajant Kinetic Mesh network.
Implementation costs vary based on network size, environment, and application.
However, Rajant’s decentralized design significantly reduces the need for fixed infrastructure, cabling, or complex configuration.
Resulting in a lower total cost of ownership and faster ROI compared to traditional networking systems.
How do BreadCrumb® nodes work in enhancing network resilience?
Each BreadCrumb® acts as a multi-radio, multi-frequency transceiver that maintains multiple simultaneous connections.
If one path is interrupted, InstaMesh® instantly reroutes data through another, creating always-on resilience that keeps communications live even under extreme conditions.
Maximize network uptime with Rajant’s solutions.
Rajant eliminates the single points of failure found in traditional networks.
Its multi-path, self-healing mesh keeps assets connected, even as they move, ensuring maximum uptime and operational continuity in industries where every second counts.
What industries benefit most from Rajant’s Kinetic Mesh technology?
Rajant’s Intelligent Edge networks power operations across mining, ports, logistics, defense, manufacturing, public safety, agriculture, and energy.
Wherever mobile assets, automation, and Industrial AI intersect, Rajant delivers real-time, reliable communication to keep data flowing and decisions immediate.
Comparing Rajant Kinetic Mesh with LTE solutions.
LTE depends on centralized infrastructure and licensed spectrum, creating latency and coverage limits.
Rajant’s Kinetic Mesh® offers a private, infrastructure-free alternative with ultra-low latency, flexible frequency use, and no dependency on towers or carriers. It’s built for mobility, autonomy, and data sovereignty.
Rajant Kinetic Mesh network integration with existing infrastructure.
Rajant networks are designed for seamless integration.
BreadCrumb® nodes connect easily with existing Ethernet, LTE, and satellite systems extending coverage, strengthening resilience, and modernizing legacy networks without disruption.
Do you sell direct?
Rajant primarily sells through our authorized partners and distributors, who bring deep expertise in deploying Intelligent Edge networking solutions across a range of industries.
This collaborative approach ensures customers receive tailored integration, local support, and end-to-end service from network design to deployment.
To find a Rajant distributor near you, visit our distributor page.