What Is a Network Effect?
Table des matières
Introduction
What is a network effect?
Types of network effects
Network effect examples
Network effects and cryptocurrencies
Negative network effects
Closing thoughts
What Is a Network Effect?
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What Is a Network Effect?

What Is a Network Effect?

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Published Jan 4, 2021Updated Oct 4, 2021
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TL;DR

A network effect is when a product becomes more valuable as more people use it. Do you remember Orkut? Well, it was shut down because not many people were using it anymore. Why not? Well, because not many people were using it anymore. Sure, there are other factors at play, but since it had so few users, it had little value as a service.

Network effects are extremely important to consider when it comes to cryptocurrencies. Money and blockchains ultimately organize people, so the more people use a network, the more utility it may provide as a service.


Introduction

What determines which cryptocurrency projects become the market leader in a given sector? We could assume that the market should generally gravitate towards the best solutions in the long run. However, this isn’t so simple. There are many factors at play.

Developers may ship some innovative technology, but if it doesn’t have a good market fit at the time of shipping, it may not get traction. 

In some cases, technologically inferior projects capture the bulk of market share simply because they were available at the right time. This is where network effects have a significant impact.


What is a network effect?

A network effect is an economic effect that describes a product or service where additional users add value to the network. When a network effect is present, each new user adds value to the product by entering the network. This, in turn, incentivizes new users to join the network, adding more value to it, and so on.

The quintessential example of a network effect is the telephone. In the early days of the technology, only a very few people had telephones in their homes. What’s more, their houses had to be physically connected to each other to use the network. 

As the technology matured, more and more people could afford a telephone, which in turn increased the value of the entire telephone network. As the number of users increased, the value and utility of the entire network increased. This created a positive feedback loop, where the more people joined, the more value was added to the entire network. Increased usage led to exponential growth.


Types of network effects

There are two main types of network effects – direct and indirect network effects.

Direct network effects are what we’ve just discussed with the telephone. Increased usage adds value for all other users.

Indirect network effects are less easily defined. The term refers to additional, complementary benefits that stem from there being a network effect in the first place. For example, many cryptocurrencies are open-source

A project with a strong network effect may draw in many skilled developers to audit the code since so much value is at stake (including their own). This added value comes from there being so much value in the network in the first place. This effect starts compounding, and we arrive at dominant leaders that build up significant network effects over their competitors.


Network effect examples

Modern-day examples of network effects are present in a number of different product categories. One obvious one is social media, where users tend to join services that their pre-existing social networks are using. This incentivizes people to join the same platforms, and a few services get into monopolistic positions. 

If new companies want to start a new social network platform, they’re going to have a hard time gaining critical mass. Why? The network effects the market leaders have built up give them a significant competitive advantage.

Another good example of network effects is ridesharing. The network effects that Uber or Lyft have built up over the years are difficult to compete with for newer services with a smaller user base. 

The same applies to Ebay and Amazon with online sales, Google with internet search, AirBNB with online renting, Microsoft in enterprise operating systems, and Apple with the iPhone. Even so, can only for-profit companies with well-defined business models achieve a network effect? No. Wikipedia is a good example of an open-source project that has built up a significant network effect.


Network effects and cryptocurrencies

Network effects are an important consideration when it comes to cryptocurrency and blockchain. 

Take the example of Bitcoin. Bitcoin has some greatly desirable properties, and it also has a strong network effect. 

Miners support network security and have great liquidity to sustain their operations. But let’s say another network is launched that aims to serve a similar use case as Bitcoin. Miners may get higher rewards but won’t have the same liquidity to exit their positions. They could take a gamble and hope that liquidity will improve in the future. Or, they could just keep mining bitcoin with relative certainty that they’ll be able to remain in business. This is how a network effect operates. Even if the alternative would be technologically superior, or bring in more rewards, it wouldn’t necessarily make sense to switch.

With that said, this isn’t only a result of Bitcoin’s network effects. Thanks to its fair launch, Bitcoin has inherently unique properties that would be extremely difficult to replicate in the first place. Think of this example more as a thought experiment.

Network effects are an important aspect to consider in the Decentralized Finance (DeFi) space as well. If a product, service or even smart contract builds up a massive advantage, that may be difficult to overcome for other projects. However, DeFi is in its very early stages. Many would argue that no product has achieved a network effect that makes them a decisive winner yet.



Negative network effects

Negative network effects work in the opposite direction. This means that each new user subtracts value from the network instead of adding it. This is also an important consideration when it comes to the design of blockchains. Good design should dictate that each new user should add value to the network. Why? This helps the network achieve scale. However, if each user subtracts value, that will lead to network congestion.

For example, Ethereum gas works with an auction-style system. Each user essentially bids on gas fees to be paid for Ethereum miners. As more users are added and usage increases, gas fees tend to become higher. Why? Each user attempts to essentially outbid each other. This, however, can’t go on forever. As gas fees become too high, some users stop using the network altogether as their activity wouldn’t be worth it with such high costs. This is an example of a negative network effect.
With that said, there are remedies to this underway. EIP-1559 is an Ethereum proposal that provides a revamp to the Ethereum gas system. In addition, a set of upgrades in ETH 2.0 could also greatly increase how much throughput the Ethereum network can handle. That could help remedy the issue of high gas fees at times of increased activity.


Closing thoughts

Network effects are present in many different segments of the economy, including cryptocurrencies. The idea is that new users add value to the network as they enter. 

Those who design blockchain and cryptocurrency networks can greatly benefit from studying what mechanisms generate network effects. By incorporating them into their design process, new coin and token projects could scale faster.

Do you still have questions about network effects and crypto? Check out our Q&A platform, Ask Academy, where the Binance community will answer your questions.