CASE STUDY

Infrastructure & Systems Engineering

Delivered a fully integrated, production-grade infrastructure stack supporting real-time parking operations across multiple high-density environments.

Situation

The parking solution required reliable, low-latency operation across hardware devices, networking, compute, and software layers in physically distributed environments.

Solution

Designed and deployed complete infrastructure systems covering physical deployment, networking, compute, integration layers, and application connectivity across distributed environments.

OUTCOMES

Sustained continuity

during network and site outages

99.95% uptime

distributed parking operations

$180K saved

lower operational disruption

Challenges

Reliability

•Distributed system dependencies
•Latency-sensitive workloads
•Multi-layer integration complexity

Deployment

•Hardware coordination challenges
•Cross-site infrastructure rollout

Solutions

Edge Networking Stack

Edge networking and compute for real-time processing.

Implemented edge compute nodes for low-latency processing
Reduced dependency on centralized infrastructure

Resilient Connectivity Architecture

Resilient connectivity between on-site systems and central platforms.

Established secure connectivity between edge and cloud layers
Ensured redundancy across network paths

Data Integration Pipelines

Secure data pipelines and system integration layers.

Built secure pipelines between hardware and application services
Enabled trusted data exchange across system boundaries
Supported scalable cross-property integrations

Hardware-Software Reliability Co-Design

Hardware-software co-design to ensure system reliability.

Coordinated hardware and software lifecycle integration
Optimized system resilience across deployment environments
Reduced operational risk through unified architecture design