Jennifer Huber is CWNE #51.
There are less than 650 CWNEs in the world. Jennifer received hers when fewer than 51 people on the planet held it. The CWNE is the highest wireless networking credential issued by CWNP, requiring all four professional-level wireless exams, a peer-reviewed technical paper, and endorsements from existing CWNEs. It cannot be earned through a training course.
Jennifer has led wireless network design across a 696,000 m² technology campus, run the wireless engineering program for a major US healthcare system covering 186 hospitals and over 40,000 access points, and delivered Wi-Fi design and troubleshooting for a global data centre operator. In each case she was hired because wireless failure in those environments carries direct operational consequences.
That same expertise is available to organisations of any size.
Three things that differentiate Jennifer from the alternatives:
Direct engagement.
Jennifer does your project. Not a junior who shares your name with a project manager who emails you updates.
Vendor-neutral.
Jennifer holds no active vendor certifications and no partnership agreements with any manufacturer. A hardware recommendation reflects your environment's requirements, not a partner tier.
Twenty years at enterprise scale.
Healthcare. Data centres. Global technology campuses. Jennifer has worked in environments where every other option was already tried.
Credential and what it means
CWNE #51
Highest wireless certification globally. Peer-reviewed. Jennifer is among the first 51 recipients from a current global total of 630.Ekahau Certified Systems Engineer #2802
Certified in the industry-standard RF design and site survey platform used by enterprise wireless professionals worldwide.Hamina Certified Network Architect
Certified in cloud-based predictive RF design.CWNT Certified Wireless Network Trainer
Certified to deliver accredited wireless engineering training.About HuberWorks
HuberWorks is an independent wireless engineering practice based in the Netherlands, working with businesses across the US, EU, Canada and the UK. The practice was founded to offer organisations access to specialist wireless expertise without the overhead of a large integrator. Native English speaker, located in the Netherlands.
Technical background
Jennifer Huber has more than twenty years of hands-on wireless engineering experience across commercial, healthcare, logistics and manufacturing environments.
Certifications and credentials
CWNE #51 | Hamina Certified Network Architect | Ekahau Certified Systems Engineer #2802 | CWNT® - Certified Wireless Network Trainer
Working arrangements
Based in the Netherlands. Available for on-site work across the Netherlands, European Union, United States, Canada and the United Kingdom. Remote advisory and training sessions available globally. Contact Jennifer to discuss. jennifer@huberworks.nl
Selected Project Work
A major US healthcare system
Jennifer led the wireless engineering program across 186 hospitals and managed a team of 24 Wi-Fi engineers. Hospital wireless carries life-safety requirements: clinical communication systems, infusion pump telemetry, patient monitoring, surgical equipment, and pharmacy barcode operations. Failure is not a performance issue. It is a patient safety issue.
A Fortune 500 technology company
Predictive RF design and planning for a Juniper Mist deployment across 696,000 m² of campus infrastructure. The environment included high-density engineering workspaces, R&D facilities, and operations with high wireless throughput and reliability requirements across a large, distributed campus footprint. Working with architects, building contractors and the customer to design a Wi-Fi soltion that met all parties' needs.
A global data centre operator
Wi-Fi design and troubleshooting across international data centre facilities. Data centre wireless presents conditions that do not exist in standard commercial environments: dense metal rack infrastructure, strict electromagnetic interference requirements, and zero tolerance for RF interference in production environments.
Why this experience matters to your project
Each of these engagements involved environments where wireless failure carries direct operational or regulatory consequences. The diagnostic and design methods Jennifer applies to enterprise-scale deployments are the same ones she brings to every project. Scale of methodology does not depend on the size of the client.
Correct design costs less than remediation.
The organisations that need remediation work consistently trace the problem to a design phase that either did not happen or was done by someone without RF expertise. Jennifer designed wireless networks across a 696,000 m² campus and 186 hospitals. In environments of that scale, a design error costs significantly more to fix than a design engagement costs to commission. The same principle applies at any scale.
Expert diagnosis is faster than process of elimination.
Twenty years of RF pattern recognition shortens fault isolation. What a less experienced engineer resolves through days of trial-and-error configuration testing, Jennifer typically traces to root cause through structured RF analysis. Less time in diagnosis means less downtime and fewer failed escalations.
Vendor-neutral specification prevents over-purchasing.
An integrator with a vendor partnership has structural incentive to recommend that vendor's full product range at the top of the specification. An independent engineer specifies what the environment requires. If a lower-cost platform meets your requirements, Jennifer will tell you.
Independent practice rate versus integrator overhead.
Large wireless integrators price engagements to cover project managers, account managers, pre-sales engineers, office infrastructure and organisational overhead. An independent practice does not carry that structure. You pay for technical work performed by a senior engineer.
Training reduces long-term external dependency.
Engineering training that builds genuine internal wireless competence reduces how often your team needs external help for problems they can now diagnose themselves.