Global Data Service™ is Kepler's low-cost non-time sensitive data backhaul service for remote operations. Kepler’s satellites operate in low-Earth orbit, where each satellites passes around the Earth every 90 minutes. A large number of LEO satellites are needed to provide a continuous connectivity service that can be used for streaming or regular internet browsing. With a small number of LEO satellites, Kepler can provide means to efficiently store and forward data, moving large quantities of files and information globally like media files, data logs, or scientific data. As new LEO satellites are added to the network, the deliver time decreases.
We transmit your data to our satellite where it is temporarily stored, and then forwarded to one of our ground stations for retrieval by you via the Internet. To connect to the network, a computer, a tracking VSAT or flat panel antenna and Kepler's modem is necessary.
Our satellites operate with a wide variety of commercially available Ku-band tracking antennas and modems, and we continue to add more every day. If you already have tracking equipment deployed, it is likely our service is already compatible and you won’t need to install new hardware. Get in contact with us to find out if your equipment is compatible, or what new hardware will be needed to make use of the service. If you do not already have a compatible VSAT, contact Kepler and we can assist in sourcing or providing one.
Global Data Service™ is based on bulk-data transfer. Plans start at 100GB per month and can be tailored to your data requirements.
Pricing varies depending on your data needs and ground equipment, with no one-fits-all value. We recommend you get in contact with us and ask about your specific situation. We always aim for the lowest data prices available in a satellite solution!
Kepler's satellites cover the entire globe, which means our services can be made available everywhere. To provide service in specific regions, Kepler is continually acquiring the regulatory approvals required to operate the ground terminals.
Kepler's user terminal is a combination of a 2U rack-mount modem and a VSAT. The VSAT is any Kepler-certified, commercially available VSAT, and the modem is in a 2U rack-mount unit using industry standard connections. Installation is identical to standard SatCom solutions. But rest assured Kepler's Field Engineers are available to assist with installations -- talk to our Sales team to discuss deployment services options.
With Kepler's service, you will be able to move quantities of data not possible with other services, from locations not previously supported. What was impossible before, is made possible today with Kepler!
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We are working to deliver first trials of this service with our third satellite, TARS, to be launched in H2 2019 (Link to TARS). If you are interested in partnering with us on some early services trials, please contact us
We recognize there are challenges with deploying globally available IOT products. Different frequency bands, different standards, different hardware needed. We want to simply that by offering an IOT connectivity solution that has the same capabilities of cellular in terms of power, price and performance, but in a globally-available satellite solution.
We are targeting very high volume and low cost devices to be connectivity via our network, and we are designing it from the ground up with scalability in mind. We aim to be able to support hundreds of millions of devices globally connected to our satellite network.
Yes! In time for our trials in late 2019 we will deliver the hardware that can be integrated into your smart connected product to enable network access. If you are interesting in seeing if this hardware can work in your products, please contact us.
LEO stands for Low Earth Orbit, and is often characterized as the region of space below 2000km. However, many LEO spacecraft orbit the Earth at altitudes between 500 km and 1000km. KIPP, for instance, orbits at an altitude 575km.
"Cubesat" is a generic term for very small satellites that are built using a standard-sized 10 x 10 x 10 cm volume as a building block. Each 10 x 10 x 10 cm volume is also referred to as a "U" (short for "unit" of volume). That is, a 1U cubesat is 10 x 10 x 10 cm, a 2U cubesat is 10 x 10 x 20 cm, and a 3U cubesat is 10 x 10 x 30 cm. Kepler's spacecraft KIPP and CASE are both 3U cubesats. The U is simply for space allocation - while typically rectangular, and taking up the whole volume of space allocated to them in "U's", cubesats can come in many different designs, have deployable solar panels that exceed their stowed volume, and are increasingly being used for powerful commercial and science applications.
Kepler is abiding by international agreements to de-orbit spacecraft once they've exceeded their useful lifetime. For small cubesats like KIPP and CASE, there is enough atmospheric drag up at their altitude (yes, even as high as 575 km up there is still enough atmosphere to generate drag!) causing them to de-orbit within 5 years after their launch. For our future generation of spacecraft, we will be including small propulsion systems to allow us to intentionally de-orbit each satellite once its time for them to retire.
By offering services via LEO satellites, link latencies can be as low as 100ms. However, Kepler's services do not provide real-time Internet, so the question of latency often gets confused here. The Global Data 'store-and-forward' Service is for latency-tolerance data; end-to-end data delivery time (perhaps a better term than 'latency' in this context) for single-pass uploads can be as low as 10 minutes, and as high as 12 hours.
This depends heavily on your location with respect to our teleport in Inuvik, Canada. Rest assured, the longest you would have to wait is 12 hours. Even better: as we add ground stations all over the world, this issue diminishes significantly.
Yes, because our satellites are in low Earth orbit, they will never be stationary with respect to your location on Earth. You will need an antenna that can point to any location in the sky, and track our satellites as they pass overhead. If you are unsure if your equipment can handle this task, don't worry! Kepler engineers and support staff will be happy to help you configure your equipment accordingly.
Not necessarily, though blockages will certainly affect the amount of contact time you realize. First, anything that blocks elevation angles below 10 degrees can be safely ignored, as the link with our spacecraft really gets going at about 20 degrees elevation. Also, our satellite's ground track over your location will vary throughout the day, so blockages (say, a tree or a tall building) would only provide trouble for the time that the satellite was behind them. Interrupted passes will resume just fine, and many passes may not even pass behind that tall tree just to the west of you! If you're worried, Kepler staff would be happy to help you with a site survey.