The network is
always on.
A telecom network can't go dark — and the assurance that keeps it up runs on software, while the heavy gear behind it still has to be set safely near live RF and power. We serve telecom three ways : deterministic network-assurance + post-quantum software on Heisen, Murlink non-conductive rigging for work near energized RF + electrical, and the crane lift for the heavy site, central-office, and data-center equipment. We don't climb the tower — we engineer the heavy pick and build the software that keeps the network honest.
Deterministic
Network-assurance compute — same input, same result
FIPS 203/204/205
Post-quantum crypto for long-lived links
Non-conductive
Murlink rigging near live RF + power
24 h
Emergency equipment-lift plans — sites Canada-wide
Six exposures across the network + the site.
Telecom risk splits between the data plane and the physical site : an assurance model you can't reproduce, a link that won't survive a quantum adversary, an equipment lift beside an energized feed. The exposures below are what deterministic software + sealed lift plans exist to control. Every Maxor engagement addresses them explicitly.
Non-reproducible network assurance
If a capacity, reliability, or fault-analysis model gives a different answer on re-run, the network team can't trust it for a build decision. Deterministic compute returns the same result every time, with inputs pinned for replay.
Harvest-now-decrypt-later
Backhaul + long-haul traffic captured today can be decrypted once a quantum computer exists. Post-quantum crypto (NIST FIPS 203/204/205) on long-lived links closes the harvest-now-decrypt-later window.
Lift beside energized RF + power
Setting equipment near live antennas + power feeds is an electrocution + arc risk with steel rigging. Murlink synthetic rigging is non-conductive ; the lift plan documents the keep-clear from energized lines.
Site / data-center equipment drop
A dropped genset, HVAC unit, or shelter is a long-lead replacement + a site offline. Capacity utilization documented per pick ; the contingency matrix maps the keep-clear around live infrastructure.
Availability SLA breach
A network event that breaches an availability SLA is a financial + reputational hit. Deterministic assurance software surfaces the reliability gap before it becomes an outage, audit-trailed for the post-event review.
Sovereignty on critical comms
Critical national comms running on foreign-controlled software is a sovereignty exposure. Heisen is Canada-built + sovereign — the operator owns the assurance layer, deployable in its own environment.
Software, rigging, and the heavy pick.
Telecom is software-forward with a real lift tail — we build the deterministic network software, supply the non-conductive rigging, and engineer the heavy equipment lift. We leave the tower + RF work to the tower crew. Six concrete fits.
Deterministic network assurance
Capacity, reliability, and fault-analysis compute that's reproducible to the bit — the assurance the network team can trust for a build decision, version-pinned for replay.
Post-quantum link protection
NIST PQC (FIPS 203/204/205) integration on backhaul + long-haul links — closing the harvest-now-decrypt-later window on traffic that needs to stay private for years.
Site + central-office equipment lifts
Gensets, HVAC, shelters, batteries, and central-office gear set into a live site. Keep-clear from energized feeds documented. Sequenced into the maintenance window.
Data-center heavy equipment
Power + cooling plant, UPS, and heavy rack infrastructure for telecom data centers. Confined-floor swing modeled ; the pick sequenced around live load.
Non-conductive rigging near RF + power
Dyneema® synthetic rigging for work near energized RF + electrical — non-conductive, light, non-marking. The rigging that doesn't bridge a live feed. Authorized Quebec distribution.
Embeds into your OSS / BSS
Heisen embeds by API into your existing OSS / BSS / assurance stack — the deterministic + audit layer alongside your tools, not a rip-and-replace.
Telecommunications in the field
From sector context to the lifts we engineer — a look at where this work happens.
The standards we work to.
We cite crane + rigging standards on the lift and build the software to the crypto + availability standards your network is held to. The RF + network engineering is the operator's — we engineer the heavy pick + the deterministic software around it.
Mobile and locomotive cranes
The mobile crane safety standard — load charts, capacity, setup, operation. Cited on every telecom equipment-lift plan as the methodology baseline.
Slings + rigging hardware
Governs slings, shackles, links, and connecting hardware. Cited on the rigging spec — each component rated, non-conductive-selected for work near energized RF + power.
Post-quantum cryptography
ML-KEM, ML-DSA, SLH-DSA — the NIST PQC standards. Integrated on long-lived links to protect telecom traffic against future quantum decryption.
Mobile crane safety + Quebec lift-plan code
The Canadian mobile crane standard ; in Quebec, Norme Z150 is the provincial lift-plan code. Cited on every engagement in its jurisdiction.
Telecommunication standardization
The ITU-T recommendations frame network reliability + interoperability. Our assurance software aligns to the availability + performance framework your network reports against.
Information security management
The ISMS standard. Our software + crypto work is built to slot into an ISO 27001-governed security posture.
Software-forward. Lift + rigging for the heavy gear.
All four Maxor pillars apply in telecom, software-forward — the lift for heavy equipment, the simulation for confined sites, the non-conductive rigging, and the deterministic network software as the lead. Here's how each earns its place.
Sealed plans + emergency response
Equipment lifts for sites, central offices, and data centers — gensets, HVAC, shelters, power plant — single-crane to tandem, sequenced into the maintenance window. We engineer the heavy pick ; the tower + RF work stays with the tower crew. Z150 / B30.5 cited inline.
Distribution + training + implementation
Confined-site + data-center floor swings modeled in CRANEbee before the crane sets up — keep-clear from live RF, power, and infrastructure drawn against actual site geometry. We distribute, train, and implement the platform on Canadian telecom projects.
Distribution + advisory + training
Dyneema® synthetic rigging for work near energized RF + electrical — non-conductive, light, non-marking, no bridge across a live feed. The rigging the safety case near antennas demands. Authorized Quebec distribution.
Deterministic engineering platform
The lead. Deterministic network-assurance + post-quantum software on Heisen — reproducible capacity / reliability / fault compute, PQC on long-lived links, audit-trailed, plus Maxor Audit + Maxor Ground. Sovereign, Canada-built. Heisen embeds into your OSS / BSS by API.
Network software that holds up at the post-event review.
In telecom, the software leads the engagement — anchored on Heisen. We build deterministic, audit-grade software : same engineering posture, same team kickoff to go-live, sovereign by default. Assurance you can reproduce when the post-event review wants to know exactly why the network behaved the way it did. Engineered in Canada, owned by you.
Heisen — our deterministic intelligence layer — is optional on any build: embed it or not, your call. Either way it plugs into a fresh custom app or your existing third-party software via API.
Deterministic network-assurance platform
Capacity, reliability, and fault-analysis compute reproducible to the bit — surfacing the reliability gap before it becomes an outage, version-pinned for the post-event replay.
Post-quantum link crypto
NIST PQC (FIPS 203/204/205) on backhaul + long-haul links — closing the harvest-now-decrypt-later window on traffic that must stay private for years.
Site + asset record
Every site, equipment lift, and asset in one auditable record — sealed lift plans, capacity utilization, maintenance history — sovereign and ready for the operator's facility dossier.
Scope your telecom engagement.
Tell us the network, the site or data-center equipment, and the assurance + crypto obligation. A senior lead responds within one business day with a scoped engagement and a path to first deliverable.