Design
Engineering High-Performance Network Design
Titan’s design philosophy is centered on engineering resilience and scalability. We provide sophisticated Industrial Wireless Network Design tailored to the unique operational challenges of each sector. By making use of data-driven insights and technical know-how, we transform complex operational requirements into high-performance communication solutions.
Strategic Engineering and Methodology
A reliable network begins with meticulous planning. Our certified engineers utilise industry-leading modeling tools to ensure coverage, capacity, and reliability meet mission-critical standards. Our design process aligns with international best practices and stringent Australian regulatory requirements.
Purpose-Built for Challenging Environments
Titan specialises in Industrial Wireless Network Design for environments where failure is not an option. Whether designing ultra-low latency networks for autonomous load-hauling or high-capacity backhaul for remote regional hubs, our focus remains on maximising asset lifecycle and minimising total cost of ownership. Our approach to these services allows us to select the best possible communications equipment suited to your specific site conditions. From initial concept to final system design, we bridge the gap between abstract engineering and field-ready reality.
Partner with our experts to engineer a future-ready communication network for your operations. Request a consultation today.
Self-Support Towers: Self-support towers are free-standing lattice structures engineered for high-capacity applications. Ideal for heavy antenna loads and extreme weather, these three- or four-legged designs offer maximum stability. They provide a robust, long-term structural solution for mission-critical microwave backhaul and Private LTE network deployments.
Short Haul Microwave Systems: Short-haul microwave systems provide high-speed, point-to-point wireless connectivity over limited distances, typically ranging from 1 to 20 kilometers. Utilising high-frequency bands like E-band (80GHz), these systems deliver fiber-like throughput and ultra-low latency, making them ideal for urban infrastructure, interconnectivity, and rapid deployment backhaul solutions.
