Poor indoor signal costs hospitals patient safety, hotels guest satisfaction, and enterprises productivity. InnoWave Networks delivers end-to-end Distributed Antenna System solutions — from RF survey through operator sign-off — built for the environments where coverage can't be compromised.
Trusted for hospitals, commercial towers, and high-demand environments across the region.
DAS technologies we deploy
Modern buildings are built for aesthetics and efficiency — not for RF propagation. The result is predictable and costly.
Concrete, steel, low-e glass, and modern insulation absorb and scatter RF energy, leaving large indoor areas with dead zones and dropped calls.
Conference centers, lobbies, and high-occupancy floors overwhelm macro cell capacity, causing slow data, call failures, and poor experience during peak hours.
Hospitals, emergency response teams, and security personnel depend on reliable voice and data. A coverage gap in the wrong place can have real consequences.
Guest complaints, lost productivity, failed IoT devices, and poor mobile POS performance are all downstream effects of inadequate indoor coverage.
A properly engineered DAS doesn't just fill coverage gaps — it transforms the indoor wireless environment into a reliable, measurable, and scalable asset.
Coverage maps, RF heatmaps, and KPI validation reports provided as part of delivery. Request a Coverage AssessmentFull-cycle delivery from initial site visit to post-launch optimization — every phase handled by the same team.
On-site signal measurement, propagation modeling, and coverage mapping to baseline existing conditions and identify problem zones before design begins.
Passive or active DAS architecture selection, antenna placement planning, head-end equipment sizing, and full technical documentation for approval and permitting.
Coaxial cabling, fiber backbone, splitters, combiners, antenna mounting, and all passive distribution components — installed to specification and tested.
Head-end unit installation, remote unit configuration, BTS/small cell integration, and system commissioning for passive and active DAS architectures.
Technical liaison with mobile network operators, compliance documentation, signal feed configuration, and end-to-end integration testing through to operator acceptance.
Drive testing, KPI verification, coverage validation, and performance tuning after go-live — ensuring the system meets design targets under real load conditions.
DAS is most valuable where buildings are large, occupancy is high, or operations are mission-critical. These are the environments we know best.
Clinical-grade coverage for patient floors, surgical suites, basements, and emergency departments — supporting staff communications and patient devices.
Seamless guest connectivity across rooms, lobbies, conference spaces, and amenity areas — a direct driver of guest satisfaction and review scores.
Multi-tenant office towers and mixed-use developments where each floor and tenant zone requires reliable, independent mobile performance.
High-footfall retail environments where mobile connectivity directly supports POS systems, customer experience, and in-store navigation.
Secure, reliable in-building coverage for government offices, courthouses, and public facilities — including first-responder interoperability requirements.
Campus-wide indoor coverage supporting high-density lecture theaters, libraries, student centers, and administrative buildings.
Stations, terminals, and underground environments where continuous mobile connectivity is expected by passengers and required by operations.
Warehouses, manufacturing floors, and logistics centers where RF propagation is challenging and mobile connectivity is essential to operations.
A structured five-phase approach that takes you from building survey to optimized, operator-accepted coverage.
Evaluate building layout, materials, existing signal conditions, operator requirements, and business-specific coverage needs before any design work begins.
Conduct an on-site RF drive test and propagation analysis to produce accurate coverage maps and identify dead zones, interference sources, and capacity constraints.
Develop a detailed DAS architecture — passive or active — with antenna placement, cable routing, head-end specification, and full documentation for stakeholder review.
Install and commission all passive and active components, coordinate operator integration, and complete system testing against design-defined KPIs.
Post-launch drive testing, coverage validation, KPI benchmarking, and performance tuning to ensure sustained operation at design targets.
We handle passive infrastructure, active equipment, operator coordination, and optimization — no handoffs between subcontractors, no accountability gaps mid-project.
Every engagement starts with a real RF survey and propagation analysis — not a desktop assumption. Design decisions are grounded in measured data from your building.
We manage the technical and documentation requirements for operator acceptance from day one — reducing the risk of costly rework at the integration stage.
We don't hand over a system without post-deployment drive testing and KPI validation. You receive documented proof that coverage meets the agreed specification.
A DAS is an in-building network of antennas connected to a central signal source (head-end) that distributes mobile signal throughout a structure. It replaces reliance on outdoor macro cell towers — which struggle to penetrate modern building materials — with a dedicated, engineered indoor coverage system. DAS can serve multiple operators and frequency bands simultaneously from a single passive or active infrastructure.
Passive DAS distributes an existing signal (from an on-site BTS or small cell) through coaxial cable, splitters, and passive antennas — no active amplification along the distribution path. It is cost-effective for mid-size buildings and simpler deployments. Active DAS converts the RF signal to optical or digital at the head-end and uses powered remote units to redistribute the signal — better suited for large, multi-floor, or geographically spread environments where passive loss would be unacceptable. We assess both options during the survey and design phase and recommend the architecture that fits your building and budget.
Yes. Operator coordination is a core part of our delivery scope. We manage the technical interface with operators for signal feed, documentation requirements, and acceptance testing. This is often where in-building projects stall — we treat it as a planned workstream from day one rather than an afterthought.
Timeline depends on building size, system complexity, and operator coordination requirements. A straightforward passive DAS for a mid-size building may be completed in 6–10 weeks from survey to handover. Larger active DAS deployments or those requiring multi-operator integration typically run 12–20 weeks. We provide a detailed project schedule after completing the RF survey and finalizing the design.
In many cases, yes. We can assess an existing DAS installation, identify performance gaps, and determine whether the current infrastructure can support expansion or frequency upgrades (e.g., adding 5G NR bands). We conduct a full audit before recommending any upgrade path — sometimes targeted optimization delivers significant improvement without a full system replacement.
A coverage assessment starts with a site visit and an RF drive test using calibrated measurement equipment to map signal strength, RSRP, SINR, and data throughput across the building. We overlay results on building floor plans to produce a visual coverage map and written analysis of problem areas. The output informs the DAS system design and provides a baseline for post-deployment validation.
Start with a no-obligation conversation. We'll review your environment, explain your options, and scope what a survey-to-handover engagement would look like for your building.
