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Interactive DAS POC

Visualize how a DAS turns weak indoor signal into managed coverage.

Walk through the complete Distributed Antenna System architecture from RF survey and donor signal capture to head-end conditioning, backbone distribution, indoor antenna zones, optimization, and monitoring.

Built as a proof of concept for hospitals, hotels, commercial towers, campuses, and other complex buildings where coverage cannot be left to outdoor macro signal alone.

Jump to Live Demo
Step-by-step architecture

Run the DAS proof of concept.

The demo now plays continuously like a live walkthrough. You can still click any stage to jump there, but the signal flow, explanation, and benefit proof keep moving by themselves.

Hospital and critical care Step 1 of 6
DonorOutdoor signal
Head-endBDA / filters
BackboneFiber / coax
Remote unitsDistributed power
AntennasZone coverage
Critical areasLifts, basements
MonitoringAlarms and KPI
Assessment

1. RF survey and donor signal capture

The POC starts by identifying weak zones, outdoor signal quality, operator bands, public safety requirements, and the best donor path into the building.

What is happening now

The RF team measures existing indoor signal and chooses the cleanest donor source for each operator or public safety band.

Finds dead zones before equipment is selected. Prevents over-design and under-design. Creates the baseline for acceptance testing.
Indoor coverage readiness42%Estimated portion of target zones with usable signal after this stage.
Call continuity confidence51%Expected ability to keep voice sessions stable while users move inside.
Capacity readiness35%How prepared the design is for peak users, data load, and multi-operator demand.
Operations visibility25%How much monitoring, alarm, reporting, and maintenance visibility is available.
POC advantage

What stakeholders can prove before full rollout.

The demo frames DAS as a measurable connectivity layer, not only a cabling project. It helps technical and business teams validate design assumptions early.

Coverage clarity

Visualize weak areas, critical zones, and target service levels before installation begins.

Reduced delivery risk

Validate donor source, head-end design, backbone routes, antenna density, and growth paths.

Measurable KPIs

Track expected improvement in coverage, call reliability, data capacity, alarms, and support readiness.

Critical communication

Plan for basements, lifts, emergency departments, security rooms, and public safety requirements.

User experience

Improve mobile performance for staff, guests, visitors, tenants, contractors, and operational teams.

Lifecycle control

Turn indoor coverage into a monitored system with reports, alarms, optimization, and documented support.

Without engineered DAS

Coverage remains unpredictable.

  • Basements, stairwells, lift shafts, and shielded rooms remain weak.
  • Outdoor macro coverage varies by operator, time of day, and building materials.
  • Emergency communications and guest experience depend on unmanaged conditions.
  • Troubleshooting is reactive because no DAS monitoring layer exists.
With InnoWave DAS

Coverage becomes a designed asset.

  • RF design targets every critical zone with measured acceptance criteria.
  • Passive or active architecture is selected based on building size and loss budget.
  • Carrier and public safety requirements are considered in the same delivery model.
  • Post-deployment testing and monitoring keep performance visible after handover.
Make it building-specific

Turn this POC into a coverage assessment for your site.

InnoWave Networks can map your current RF conditions, propose the right DAS architecture, and prepare a practical implementation roadmap for your building.

  • RF survey, heatmap, and problem-zone baseline
  • Passive or active DAS recommendation
  • Head-end, backbone, and antenna-zone design
  • Operator coordination and public safety considerations
  • Commissioning, KPI validation, and lifecycle support