What Is Mesh Messaging & How Does It Work?
Let’s you communicate without cellular service
Have you ever thought about what you’d do if suddenly youcouldn’t connect to the internetto communicate with others, or get your everyday tasks done?
Most of us have come to rely on the internet for many things because of its many uses. Thus, anything that hinders access to the web and other online services would render things like file sharing, shopping, streaming media and others almost impossible to do.
With mesh messaging though, it’s possible to communicate with others without a persistent managed network and stay connected to each other.
In this article, we’ll be helping you get a grasp of what mesh messaging is, how it’s being used today and explain how it works. If you’d like to delve more into different types of networks, we recommend you give our guide oncomputer networksa read.
What Is Mesh Messaging?
Mesh messaging or off-the-grid messaging is a peer-to-peer networking system that allows users to contact each other without relying on the cell or WiFi networks, or any other government-controlled infrastructure.
A good example of where mesh messaging has been used is in the Hong Kong protests of 2019. Hundreds of thousands of civilians filled the streets and heldanti-extradition demonstrations against the Fugitive Offenders Amendment billthat would allow the government to repatriate suspected criminals to China.
The protests went on for weeks, prompting police to use violent and aggressive means to quash the efforts. Consequently, the protestors needed a way of communicating with one another without depending on an internet connection, so as to organize themselves and stay safe.
To do this, they used off-the-grid smartphone apps likeFireChatandBridgefy, which work by creating their own networks outside the internet and carrier cell masts. They rely mainly on the WiFi link or Bluetooth that exist between two or more phones.
Both apps registered thousands of downloads in Hong Kong alone during the protests because there were lots of people in the protest areas, which made the cell network slow altogether.
Some of the ideal uses of mesh messaging include:
How Mesh Messaging Works
Mesh messaging sends data via Bluetooth or ad hoc WiFi similar to what your phone sets up when trying to get a home security camera or smart device online.
The system is structured in such a way that no one can monitor or control the conversations you’ve got going. This way, neither hackers nor government surveillance authorities can tap into cell towers to block the communication channels, pull down websites you’re trying to use to communicate with others, or even listen in on whatever is being beamed to your internet service provider.
Apps used for mesh messaging don’t need traditional online networks. Plus, they make connections between users in the same way torrenting software does, instead of sucking files from a central repository.
If you have a mesh messaging app installed on your smartphone, and many other people in the same area have the same app, it’s easier to pass on messages to each other the way a relay team would pass on a baton. However, the passing on is invisible to everyone sending the message to others so it’s not being read by other people as it moves along.
The main principle at work in mesh messaging is device-to-device communication. This makes use of short-range Bluetooth connections to form a network andbypass cell or WiFi networks, and any other government-controlled infrastructure.
The main purpose for mesh messaging isn’t necessarily to keep off the government radar, but to enable communication in areas with poor connectivity, or remote locations with no form of connectivity. It also comes handy during events in stadiums where many fans would interact with each other, or in places that have been ravaged by natural disasters like earthquakes and floods, which destroy cell towers and WiFi networks.
Mesh messaging apps use the mesh network to link users’ devices together via Bluetooth, allowing the message to move from one device to another until it lands on the intended person’s inbox.
Since Bluetooth’s phone to phone range typically maxes out at around 100 meters, it’s possible to communicate with other people within a range of up to 200 meters. It’s more effective when two or more phones are within range of each other, otherwise the signal strength is affected.
For longer distances though, your message will jump between the nearest user and creates a mesh network until it reaches the intended person. For example, phone A can’t connect directly to phone C, the mesh messaging app will bounce the message from A to C via phone B.
Plus, the people forwarding the message needn’t be in your contacts list or perform any further actions whatsoever for it to reach your intended target. This makes it harder for the government or hackers to shut it down as there’s no single point of failure that can be targeted to shut it down.
The more users in a mesh network, the better mesh messaging works.
How to Use A Mesh Messaging App
For you to understand just how mesh messaging works, we tested one of the popular off-the-grid apps, Bridgefy, and here’s a step-by-step guide on how to use it.
Note: During testing, we moved around the building with our phones and tried sending messages from different rooms. We discovered that we couldn’t communicate as our messages would either show a little timer icon indicating the message is pending delivery, orRetry(with an exclamation mark) indicating they’ve not been delivered or they failed to send.
As we came closer within range, the messages started trickling in one after another. All messages that were sent and delivered show the green double ticks akin to the blue ticks on WhatsApp.
Make Messaging Easier
Mesh messaging is a great way of protecting your privacy while avoiding surveillance by the government or online snoops. It won’t replace your day-to-day communication, but it definitely makes messaging at busy places easier, and offers safe way of communicating and coping if the internet can no longer be used or trusted.
Elsie is a technology writer and editor with a special focus on Windows, Android and iOS. She writes about software, electronics and other tech subjects, her ultimate goal being to help people out with useful solutions to their daily tech issues in a simple, straightforward and unbiased style. She has a BCom degree in Marketing and currently pursuing her Masters in Communications and New Media.Read Elsie’s Full Bio
Welcome to Help Desk Geek- a blog full of tech tips from trusted tech experts. We have thousands of articles and guides to help you troubleshoot any issue. Our articles have been read over 150 million times since we launched in 2008.
HomeAbout UsEditorial StandardsContact UsTerms of Use
Copyright © 2008-2024 Help Desk Geek.com, LLC All Rights Reserved
