Enterprise wireless access point installation and RF heat map survey
Core 2 — Wireless

Coverage and Capacity Engineered for Real-World Conditions

We design and deploy wireless and RF systems that support mobility, safety, and operational continuity across demanding environments. Wireless designs are validated through predictive modeling and field verification—not guesswork.

What's Included

Enterprise & Industrial Wi-Fi

Surveys, heat mapping, optimization, and performance remediation for enterprise wireless networks.

Public Safety DAS

NFPA / IFC compliant and AHJ coordinated systems for first responder coverage in buildings and facilities.

Cellular DAS & Private LTE

Carrier-neutral and private wireless solutions for enhanced cellular coverage and capacity.

Point-to-Point & Remote Connectivity

Licensed/unlicensed wireless, backhaul, and remote connectivity solutions including Starlink.

Why Wireless Engineering Matters

Wireless performance is not defined by signal bars. It is defined by coverage consistency, device density capacity, interference mitigation, and real-world validation.

Risks of Poor Wireless Design

  • Coverage gaps and dead zones
  • Capacity overload in high-density areas
  • Interference and co-channel congestion
  • Failed compliance inspections
  • Unreliable mobility for critical operations

Engineered for Real-World Conditions

Our wireless and RF systems are designed using predictive modeling, validated through on-site surveys, and optimized for enterprise, industrial, healthcare, and campus environments. All wireless systems are built on enterprise structured cabling infrastructure and integrate with security and life-safety systems for coordinated facility coverage.

Predictive RF heat map survey and enterprise wireless access point deployment

Standards & Code Compliance

All systems are designed and deployed in alignment with applicable industry standards and Authority Having Jurisdiction requirements.

NFPA & IFC Compliance

Public Safety DAS systems meeting fire and life-safety code requirements.

Carrier-Neutral Standards

Carrier-neutral deployment standards for broad compatibility.

FCC & Spectrum

FCC and spectrum considerations for licensed and unlicensed deployments.

AHJ Coordination

Authority Having Jurisdiction coordination and inspection support.

Turnover Documentation

Complete documentation packages for inspection and system turnover.

Our Wireless Delivery Approach

A Validated RF Engineering Process

1

Assess

Spectrum analysis, site surveys, interference identification, capacity forecasting.

2

Model

Predictive RF modeling and heatmap simulation based on architectural and environmental variables.

3

Design

Access point placement, antenna selection, DAS layout, and capacity engineering.

4

Deploy

Structured installation integrated with network infrastructure and backhaul systems.

5

Validate

Post-installation surveys, signal verification, throughput testing, and optimization tuning.

Designed for Complex Environments

We design wireless systems for environments where mobility, safety, and operational continuity are mission-critical.

Key Capabilities

  • Hospitals and healthcare facilities
  • Manufacturing and industrial campuses
  • High-density office environments
  • Warehouses and logistics centers
  • Multi-building campuses
  • Remote and rural facilities

Capacity, Density & Performance Engineering

Coverage

Consistent signal strength across operational areas.

Capacity

Engineered device density support and bandwidth forecasting.

Resiliency

Redundant backhaul, failover planning, and interference mitigation.

Wireless systems must perform under load, not just during testing. Our designs account for peak device counts, roaming behavior, and application performance.

Remote & Point-to-Point Connectivity

For locations where traditional wired infrastructure is impractical, we engineer licensed and unlicensed wireless backhaul solutions.

  • Point-to-point microwave links
  • Licensed spectrum solutions
  • Private LTE deployments
  • Temporary and rapid deployment connectivity
  • Integration with satellite backhaul including Starlink
Point-to-point wireless backhaul and remote connectivity infrastructure

Four Core Integration

Wireless & Mobility solutions operate in coordination with the broader infrastructure ecosystem.

Industries We Serve

Proven wireless performance across demanding operational environments.

Enterprise & Corporate

Healthcare

Manufacturing

Education

Government

Industrial & Logistics

Core Entities & Definitions

Authoritative definitions for the core components of enterprise wireless and RF infrastructure.

What is enterprise Wi-Fi engineering?

Enterprise Wi-Fi engineering is the process of designing, deploying, and optimizing wireless local area networks for commercial and institutional environments. It involves site surveys, predictive RF modeling, access point placement, controller configuration, and post-deployment validation to ensure consistent coverage, capacity, and roaming performance.

Unlike consumer-grade wireless, enterprise Wi-Fi must support hundreds or thousands of simultaneous devices, maintain Quality of Service for real-time applications, and integrate with network authentication systems. SBI designs enterprise wireless systems using predictive modeling validated by on-site surveys, ensuring performance under peak load conditions.

IEEE 802.11ax (Wi-Fi 6/6E)BICSIANSI/TIA-568
Enterprise Structured Cabling Solutions

What is Public Safety DAS?

Public Safety DAS is a code-required in-building wireless system that ensures reliable radio frequency coverage for first responders including fire, police, and emergency medical services. NFPA 72, NFPA 1221, and IFC Section 510 mandate these systems in buildings where signal penetration testing reveals inadequate coverage levels.

SBI designs and deploys Public Safety DAS systems in full compliance with NFPA and IFC requirements. Our process includes initial signal strength testing, system design coordinated with the Authority Having Jurisdiction (AHJ), professional installation, final acceptance testing, and ongoing annual compliance testing.

NFPA 72NFPA 1221IFC Section 510FCC Part 90
Integrated Security & Life-Safety Systems

What is a cellular Distributed Antenna System (DAS)?

A cellular DAS extends carrier macro network signals throughout buildings and campuses where architectural materials or building density attenuate outdoor cellular signals. It uses a network of antennas connected to signal source equipment to distribute cellular coverage uniformly across all areas of a facility.

SBI deploys carrier-neutral DAS solutions that support multiple carriers on a single infrastructure. These systems improve cellular voice and data performance for building occupants and visitors, supporting enterprise mobility, IoT connectivity, and operational continuity.

FCC Part 22/24/273GPPBICSI

Frequently Asked Questions

Engineered Wireless Systems Built for Real-World Performance

Let's assess your environment and engineer a wireless solution that performs.

Schedule a Wireless AssessmentSpeak With an RF Specialist

"Designed for uptime, interference control, and real-world RF conditions."

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