Page overview
Who will Project Kuiper help connect?
Billions of people around the world don’t have reliable access to broadband. Poor connectivity means limited access to modern communications, education, health services, and other important resources, which can create an economic disadvantage for unserved and underserved communities. At the same time, the network will also serve a wide range of customers, including schools, hospitals, businesses, government agencies, and others operating in places without reliable connectivity or that need more flexible, resilient communications capabilities. Project Kuiper plans to deploy service to many countries around the globe.
You don’t have to travel far from major cities to lose internet connectivity—it can happen within a 60-minute drive from Amazon’s headquarters in Seattle. Cost, complexity, and geography can make it difficult to install traditional, ground-based fiber and wireless connectivity solutions in these areas.
Satellite broadband can fill many of those coverage gaps, but developing and deploying satellite technology requires significant innovation and investment. Amazon has the people and resources required to deploy and operate global satellite broadband services, and we feel a responsibility to use our success and scale to help bridge the digital divide.
No. Project Kuiper is an Amazon initiative, part of the same Devices and Services division responsible for Kindle, Echo, Fire TV, eero, Ring, and other tech devices. Blue Origin is a separate company founded by Jeff Bezos.
Amazon began research and development on Project Kuiper in 2018. In July 2020, the U.S. Federal Communications Commission (FCC) granted Amazon a license to deploy and operate Project Kuiper satellites.
Project Kuiper is a long-term initiative. Our FCC license requires that we deploy and operate at least half of our satellite constellation by July 2026. We launched our first two prototype satellites on October 6, 2023, and after achieving 100% success with that mission, we expect to begin deploying our satellite constellation in early 2025 and rolling out commercial service later in the year.
Project Kuiper started off as an internal code name for the program—and it stuck. The name refers to the Kuiper Belt, a region of the solar system that exists beyond the eight major planets. The Kuiper Belt itself is named after the late Dutch astronomer Gerard Kuiper, who is considered by many to be the father of modern planetary science.
Project Kuiper is based out of a state-of-the-art facility in Redmond, Washington. The space is the size of more than four football fields and serves as our primary headquarters for research and development. It also handles our initial satellite manufacturing and qualification. In 2023, Project Kuiper announced a dedicated satellite production facility in Kirkland, Washington, to expand manufacturing capacity to build up to five satellites per day. Additionally, Project Kuiper began construction on a satellite-processing facility at Space Florida’s Launch and Landing Facility at Kennedy Space Center, which we will use to prepare and integrate Kuiper satellites with rockets from Blue Origin and United Launch Alliance (ULA) ahead of launches.
Amazon has a team of more than 2,000 world-class engineers, programmers, and support personnel helping deliver on the vision for Project Kuiper. Team members joined from many different industries, such as space and aerospace, wireless technology, and computer networking. They work out of our labs in Redmond and Kirkland in Washington state, as well as in cities across the U.S., like New York City, Austin, Denver, San Diego, and Washington, D.C., and internationally.
Project Kuiper has three main parts: ground infrastructure, satellites, and customer terminals. Amazon’s ground infrastructure includes gateway antennas that securely send and receive customer data to and from satellites, along with telemetry, tracking, and control (TT&C) antennas that keep the satellites properly operating. Global networking connects those gateway antennas to the internet, public cloud, or private networks.
Satellites make up the second part of the project. They operate in low Earth orbit (LEO) and relay data traffic to and from our gateway antennas and customers. Lastly, customer terminals are the technology that Project Kuiper customers use to receive broadband service. The terminals combine antennas and processors into a single, compact system to deliver connectivity.
Project Kuiper’s initial satellite constellation design includes 3,232 satellites. The term “constellation” refers to a group of similar satellites working together with tightly coordinated movements to achieve a common purpose—in this case, providing reliable broadband coverage.
LEO is an area of space that extends up to 2,000 kilometers (about 1,243 miles) above Earth. Project Kuiper satellites will orbit between 590 and 630 kilometers (about 367 and 392 miles). Our satellites’ proximity to the surface of the Earth means they can deliver fast service to customers, making Project Kuiper connectivity effective for uses like video calls, gaming, and high-definition streaming.
Amazon works with commercial launch providers to send Project Kuiper satellites into space. We’ve secured 80 heavy-lift launches with commercial launch providers Arianespace, ULA, SpaceX, and Blue Origin, and we have options for additional launches with Blue Origin, which give us the capacity to deploy the majority of our satellite constellation. Together, these agreements represent the largest commercial procurement of launch vehicles in history.
Space safety and sustainability are core tenets of Project Kuiper and have been from the initiative’s inception. Those tenets have influenced everything from the overall architecture of Project Kuiper’s satellite system to the design of the satellites themselves and the way we engage external stakeholders like scientists and other space operators.
We’re designing the system to balance performance and affordability, and we plan to provide choice and flexibility by offering a range of options for customers. In March 2023, we revealed early engineering models of three customer terminals that strike that balance. Our ultra-compact model provides speeds of up to 100 megabits per second (Mbps), our standard model delivers up to 400 Mbps, and our largest model, which is intended for enterprise, government, and telecommunications applications, delivers up to 1 gigabit per second (Gbps).
Amazon hasn’t announced pricing details yet, but affordability is a key principle of Project Kuiper. Amazon has a longstanding commitment to low prices, and lots of experience building popular, low-cost devices like Echo Dot and Fire TV Stick. We’re applying a similar approach with Project Kuiper. We also know customer needs will vary quite a bit around the world, and our service offerings may vary from country to country with the right pricing and service for customers in each region.