Neara is the first physics-enabled digital twin that combines engineering-grade analysis at the individual asset level with network-wide scale. It goes beyond visualization, capturing real-world spatial relationships — and how they change in any condition — that are essential to answering any ‘what-if’ question about your network:

• Between assets and their surroundings — in a >50 mph SW wind scenario, where will assets breach safe clearance thresholds?

• Between assets themselves — if one pole fails, which other ones will go with it?

• Across layers of workflows — if a tower gets moved inland, how will vegetation encroachment zones shift?

It applies the same physics-verified rigor used in engineering design to the full set of critical infrastructure challenges — from asset management and wildfire mitigation to resiliency and reliability, and design and construction. It connects the granular perspective engineers need to maintain a structurally sound, safe system with the network-wide view leaders need to improve reliability and efficiency. With Neara, daily realities upgrade from:

• Chasing risks by problem area to prioritizing context-agnostic risks by total network impact

• Costly and inefficient manual processes to precise, automated workflows

• Messy, anecdotal, project justification to easy-to-audit business cases that hold up from the field to the boardroom and courtroom

Every analysis, from a single pole’s loading to a proposed new transmission route, is grounded in the same structural ground truth so infrastructure owners can prioritize and validate network investment to maximize impact and capital efficiency in every context on every timescale.

Trusted by global utilities including Southern California Edison, CenterPoint Energy, HEDNO, and ESB, Neara has modeled millions of assets across four continents — reducing key processes from years to hours, restoring service >3× faster, and saving tens of millions in annual costs.