Remote broadband
Last-mile internet too costly? Minimizing trenching expenses can reduce installation costs by up to 85%, allowing internet access to reach where it never could before.
Please fill out this form and a Mesh++ engineer will contact you shortly.
Most mesh networks lose too much throughput to be useful at scale. Our self-powered hardware doesn't, so you can cover hundreds of acres before laying cable. Power or ethernet not required.
Cellular chipsets pack four times as much computing ability as the average router, allowing us to manage complex routes without slowing you down.
Our routing algorithm loses only 15% of available throughput on each wireless "hop." Consumer mesh networks are too lossy to even make it out of a house.
With optional 5G or CAT20 4G-LTE support, up to 2Gbps built-in backhaul.
Feel free to throw the submersible, all-aluminum construction off a cliff.
You know, so that they can have WiFi down there too.
Last-mile internet too costly? Minimizing trenching expenses can reduce installation costs by up to 85%, allowing internet access to reach where it never could before.
Host local networks even where there is limited backhaul. Enable IoT and wireless connectivity to bring challenging workplaces to the 21st century.
Nearly instantaneous internet. Each battery-powered node takes about 2 minutes to strap to a pole and turn on via Bluetooth. No messing with wires or waiting for power.
Danny is a wireless electronics nerd who spent time designing hardware at Fitbit, Apple, and other communications startups. Danny quit his job and dropped out of school to pursue Mesh++ full-time in late 2017.
Lee directed the operations of ALIVITI, a Chicago-based software-defined networking company. She managed 300,000 users in the Midwest at Ritual.co.
Edward most recently served as the Firmware Manager for Open-Mesh’s Hong Kong office. He has 16 years of experience in wireless development including embedded, GSM, and low-power ARM WiFi.
Marcus is a cybersecurity expert with a home lab. He helps customers integrate their own Mesh++ networks.
Alex is a distributed computing aficionado with a research background in supercomputing and wireless mesh networks.
McKinley spent 8 years as a Business Development Manager at IBM's software group before his successful career as an actor and producer. He has starred regularly in Hit the Floor, Days of our Lives, and General Hospital.
As a senior engineer at APCON and then Datto, Daniel helped develop and bring to market dozens of wireless APs, routers, and enterprise switches.
Xi completed his PhD on wireless networking from Iowa State University in 2011. He then spent three years at Qualcommn developing enterprise WiFi drivers. Following two years at Ubiquiti Networks, Xi's most recent efforts have been as a Sr. Wireless Developer at Amazon's Lab126.
Venkat has 14 years of experience in WiFi mesh networking protocols. He focused on outdoor WiFi while studying at the Indian Institute of Technology. He has implemented mesh protocols for Arada Systems and Proxim Wireless, most recently leading the technical progress of Nearhop Internet.
We are always looking for brilliant engineers. You can find a job description here. If you're a fit, send a resume to info@meshplusplus.com.
We are always looking for brilliant engineers. You can find a job description here. If you're a fit, send a resume to info@meshplusplus.com.
We are always looking for brilliant engineers. You can find a job description here. If you're a fit, send a resume to info@meshplusplus.com.
We're building and improving every day.
Inquire at info@meshplusplus.com to purchase
S865-40
S428-60
F865
Support
We won't sell your data to fund our business, probably.
They came out in one afternoon, put it up in about 20-30 minutes, and everybody was able to get internet. That is awesome.
Ensuring that people have the ability to connect and get access... to provide relief during a pandemic.
WiFi in public parks not only characterizes Chicago as a tech hub, but offers this vital resource to those who cannot afford internet access.
From parks to third-world countries, Mesh++ is hoping to connect the world one node at a time.