Mobile Network Design

We design multi-technology mobile networks from macro to small cells, ensuring reliable coverage and capacity across 2G, 3G, LTE, and 5G NR layers.

How it works: Using licensed propagation tools, terrain data, and traffic projections, we create RAN plans tailored to operator strategy, spectrum, and expected growth.

    Key Benefits:
  • Achieve balanced coverage and capacity from the start.
  • Reduce post-launch optimization efforts.
  • Support multi-band, multi-technology network builds.
    Common Use Cases:
  • New regional network rollouts
  • Technology upgrades from legacy to LTE/5G NR
  • Capacity expansion in growing cities
Did you know? Over 80% of post-launch issues are traceable to poor planning — get it right from the beginning.

Private 4G/5G Network Planning

We design secure and scalable private LTE and 5G NR networks for enterprises, industrial zones, and government applications.

How it works: We evaluate coverage needs, traffic profiles, and use case density to define a tailored RAN and backhaul architecture with secure isolation and performance SLAs.

    Key Benefits:
  • Support mission-critical applications with guaranteed QoS.
  • Avoid unnecessary overbuild or coverage gaps.
  • Accelerate deployment approval and RF compliance.
    Common Use Cases:
  • Industrial campus networks
  • Smart factories and logistics hubs
  • Government/defense private networks
Did you know? Private 5G is expected to reach 25% of enterprise network investment by 2027 — planning accuracy is key.

In-Building & Small Cell Design

We develop indoor coverage and small cell strategies to extend LTE/5G NR service into dense and complex environments.

How it works: We use walk test data, floor plans, and predictive modeling to define antenna placement and indoor RAN architecture for enterprises, malls, airports, and more.

    Key Benefits:
  • Eliminate indoor coverage blind spots.
  • Meet SLAs in corporate and retail environments.
  • Optimize handovers to macro network.
    Common Use Cases:
  • High-rise buildings and hotels
  • Airports and metro systems
  • Shopping malls and hospitals
Did you know? Indoor traffic now represents over 70% of mobile data usage in urban areas.

5G & mmWave Design

We design 5G and mmWave networks considering propagation constraints, densification needs, and device penetration for high-capacity service zones.

Our team simulates link budgets, interference, and load balancing across small cells and outdoor nodes to optimize coverage, handover zones, and resource allocation.

    Key Benefits:
  • Compare technical and financial outcomes before rollout.
  • Identify cost-saving configurations early.
  • Align planning with commercial goals.
    Common Use Cases:
  • Evaluating different site grid densities or layer additions.
  • Testing regional strategies for new service introduction.
  • Operator or vendor-led investment modeling.
Did you know? 5G and mmWave design requires up to 3x more site density than traditional LTE — proper planning ensures cost-efficient performance.

Fixed Wireless Access (FWA) Planning

We plan FWA coverage and capacity using 4G/5G RAN tools, ensuring service reach and quality in underserved areas.

How it works: We simulate CPE signal strength, line-of-sight, and interference risks to design cell placement, sector azimuth, and resource allocation.

    Key Benefits:
  • Expand broadband with minimal infrastructure cost.
  • Support universal service goals in rural zones.
  • Accelerate time-to-market for fixed services.
    Common Use Cases:
  • Rural broadband programs
  • Suburban neighborhood FWA coverage
  • Post-disaster or temporary deployments
Did you know? FWA is projected to serve over 100 million homes globally by 2030.

Edge Network Planning & Deployment Strategy

We help operators plan the distribution of edge nodes and processing zones to support low-latency applications across LTE and 5G NR networks.

How it works: We analyze traffic density, service latency targets, and transport costs to define optimal edge node locations and backhaul segmentation.

    Key Benefits:
  • Reduce latency for time-sensitive services.
  • Enable MEC (Multi-access Edge Computing) readiness.
  • Minimize transport costs with distributed processing.
    Common Use Cases:
  • IoT or sensor-heavy deployments
  • Autonomous vehicle corridors
  • Smart city infrastructure
Did you know? Edge infrastructure reduces application latency by up to 75% in dense urban zones.

RF Propagation Model Tuning

We calibrate and validate propagation models to improve network planning accuracy for LTE and 5G.

How it works: Using drive test or UE log data, we adjust model parameters and clutter classifications to improve prediction accuracy across diverse terrains.

    Key Benefits:
  • Improve planning confidence and reduce margins.
  • Increase spectrum efficiency and performance.
  • Avoid overdesign or underbuild scenarios.
    Common Use Cases:
  • National model tuning for regulators
  • Vendor model audits and calibration
  • Rollout in topographically diverse regions
Did you know? Proper tuning reduces average site count by 5–12% in rural or complex geographies.

Capacity & Traffic Modeling

We simulate expected user demand and traffic load to ensure LTE and 5G NR network plans meet peak performance needs.

How it works: We integrate historical usage, population growth, and service forecasts to determine carrier sizing, site densification, and backhaul requirements.

    Key Benefits:
  • Avoid congestion and unplanned expansion.
  • Support growth projections confidently.
  • Optimize spectrum and core dimensioning.
    Common Use Cases:
  • Urban densification planning
  • New spectrum carrier activation
  • Capacity audit for high-traffic zones
Did you know? Traffic misestimations cause up to 30% of LTE site expansions within 12 months of launch.

Site Strategy & Grid Planning

We define macro and small cell grid strategies to ensure effective site spacing, reuse, and urban/rural coverage balance.

How it works: We evaluate morphology, spectrum, and service type to decide site density, antenna height, and zoning compliance.

    Key Benefits:
  • Balance cost with coverage efficiency.
  • Accelerate permitting and landlord negotiations.
  • Align grid with vendor and technology roadmap.
    Common Use Cases:
  • Initial national rollout design
  • Cluster planning in expansion areas
  • New town planning integration
Did you know? Correct site spacing improves handover success by 15–25% in grid-based LTE/5G networks.

Spectrum Refarming & Allocation Planning

We help operators optimize spectrum usage across LTE, 5G NR, and legacy networks through phased refarming and reuse strategies.

How it works: We define band clearance steps, guard band management, and reallocation timelines considering traffic, devices, and regulatory conditions.

    Key Benefits:
  • Maximize use of existing spectrum assets.
  • Reduce interference during band transitions.
  • Plan long-term evolution to 5G SA.
    Common Use Cases:
  • 3G-to-LTE refarming strategies
  • 5G NR band coexistence with LTE
  • Regulatory spectrum reallocation planning
Did you know? Smart spectrum reuse increases spectral efficiency by up to 40% in multiband deployments.

Digital Twin & Coverage-Cost Simulation

We use digital twin environments to simulate RF planning scenarios and evaluate rollout cost-efficiency.

How it works: We build digital replicas of deployment areas including topology, zoning, and demand heatmaps to test grid strategies and investment plans.

    Key Benefits:
  • Visualize network before investment.
  • Align technical and commercial goals.
  • Avoid over- or under-dimensioning clusters.
    Common Use Cases:
  • Citywide rollout planning
  • Greenfield expansion validation
  • Enterprise proposal modeling
Did you know? Digital twin usage reduces investment deviation by 20–30% in large rollouts.

Planning for Regulatory Compliance

We prepare operators and governments to align network planning with spectrum, coverage, and QoS regulations.

How it works: We use planning tools and modeling aligned to ITU/FCC thresholds and support documentation and audit requirements.

    Key Benefits:
  • Reduce regulatory risk and penalties.
  • Speed up license applications and renewals.
  • Support national coverage targets with evidence.
    Common Use Cases:
  • SLA-driven coverage modeling
  • Universal service obligation support
  • RFP submissions for government programs
Did you know? Pre-compliance modeling improves license grant timelines by 2–4 months.

AI-Assisted Planning Recommendations

We use AI models trained on previous rollout data to suggest optimization paths for 4G/5G RAN planning.

How it works: The AI engine analyzes historical deployments, terrain, traffic density, and outcome KPIs to recommend site placement, bands, and topology.

    Key Benefits:
  • Accelerate planning decisions with data-driven insights.
  • Reduce dependency on trial-and-error.
  • Increase consistency across planning teams.
    Common Use Cases:
  • Rapid planning cycles in multi-country ops
  • Vendor-neutral rollout recommendations
  • Planning assistance for non-expert teams
Did you know? AI-assisted planning cuts average time-to-plan by 40% in pilot studies.