 I am Manpreet Bhatia, I am the operations director of Geospatial Ventures Limited, and I am here today to talk about what we are, what we do, on the focus on low-cost asset and manufacture infrastructure and monitoring using GNSS-enabled IoT devices coupled with INSA. So we are a startup company and we were formed in January 2020, so very new. And we are based in the UK, where we have two offices, one in the University of Nottingham, where we have our own lab on roof lab and GNSS reference stations. And the other office is in New Key Cornwall, which is also known as UK's first horizontal launch site. You might know this as Spaceport Cornwall. So although we are based in the UK, we supply our solutions across the world. And what sets us apart from the other companies is that we use geospatial technologies to solve real-world problems at a fraction of a cost. And I'll be talking some of these with you today. So what we do, well our services fall into three different categories, training, research and development and product development. We have a team of professional trainers who can provide training for beginners, right through to technical experts. And we have a range of different courses available starting from few hours to few days. And we can adapt the courses to meet your requirements. We are experts in GNSS, position, navigation and timing, mapping and surveying and geospatial technologies. And some of the companies that we work with are ACOM, Siemens, Murphy Geospatial and Manpower Group. So these are just some of the companies that just out of the name a few. And we provide solutions for lots of different applications such as track and trace, condition monitoring, structural health monitoring, air quality monitoring. So like I said to you, I will be talking some of the solutions. So there's one of our product here that you can see on the screen as well. This is a local safe device that uses high accuracy RTK GNSS. And it includes an integrated antenna and a battery inside it. I know it looks really big on the screen, but this is what the device is. This is what it looks like. It's about four centimeters across and three centimeters in piclis. You're more than welcome to come and feel for if you want. And it is designed to be used because it's easy to set up and easy to use and this links to our in-house command and control dashboard that provides full analytics. Now I'm going to hand over to my colleague Paul Batia who can be going into a bit more detail about these things. Thank you. Thank you for listening. Okay, so thanks Manpreet. So I'm Paul Batia. I'm the managing director of Geospatial Ventures Limited working together with Manpreet. So just a little bit about condition monitoring, why we need it and what we're focusing on. So that company came about from a group of individuals who've had about, well, myself about 15 years experiencing GNSS with the University of Nottingham and a team that's been working on infrastructure monitoring, condition monitoring for many, many years using state-of-the-art equipment and high-end geodetic receivers. And we've been working on land planning, bridges, dams, power installations, skyscrapers and smart cities. The device you see here is a prototype. It's got an external antenna output on it as well. It's got an internal antenna inside it here and it's self-powering and it's obviously IoT connected to the internet and through cellular as well. So why do we need these services for predictive maintenance, for proactive responses, to optimize maintenance, avoid breakdowns, extend the lifetime of structures and to help future design and to improve safety. Now how we're developing this is the first project that we're doing is called artificial intelligence for land planning. So artificial intelligence is the buzzword that you've heard a lot today and you hear a lot, but what we're actually doing is taking lots of different inputs and sensors. So for example, in this device we have an IMU, so we're doing inertial sensing in there as well and we're connecting to external data sources. So that means a lot of environmental data such as CAD data for buildings, weather data, a lot of that information going into the artificial intelligence model and in that as well we're using interferometric cell which is basically radars on satellites in space that bounce signals of structures on the earth and off corner reflectors that we put there to measure millimetric changes in land height and that's what we're aiming for in all of this with the artificial intelligence model and what we're doing with the GPS with the GNSS devices and the corner reflectors as well. So just to reiterate what Manpreet was saying, really our USP is here that we're really reducing the cost of this and we're combining different sensors to give ongoing monitoring with modern technology and processing methods. So it's a low cost ground defamation monitoring system, we use reference corner reflectors and base stations and then corner reflectors are spaced out there using free data from satellites and then combining that with the measurements from the GNSS. So this project is being used on a number of different sites around the UK and you can see our experimental system with the batteries and the solar power and everything for that. So Manpreet talked about tracking hub as well, what you see here is an early version of our tracking hub but we can do full analytics so you've got two points there and what we can do is for all of the points for the GPS devices and also for the corner reflectors and the natural reflectors from INSAR we can click on that and get a full time series and full analytics of data. So you can see here a distribution of the points that we get from the INSAR processing and then clicking on each of those points we can get the time series so we can do full analytics like I said that's for each of the devices as well. So I just recap that slide so we're using not SATA but data free satellite data for the INSAR we have a full processing chain which combines all of those readings and we have our own cloud storage so you get your own you get your own access to that portal and we have our full in-house processing and support for that. So the interesting thing that we think that we're moving into in terms of CubeSats and IoT is nowadays CubeSats is the technology where satellites is moving forward to it's it provides a massive cost saving over traditional satellites and it means that companies can get access to data and missions from satellites. CubeSat for those of you don't know consists of units each of those units is 10 centimetres by 10 centimetres the domain has largely been for R&D and for science but these are really coming into the fore now so our use here is through IoT so this doesn't exist as a constellation yet there are some constellations out there but we know that we're getting corrections from GNSS on small satellites as well as satellites are a bit further out in space and we have the experience through our company and our network around the constellation design so we've designed constellations that allow us to achieve this and we're talking about low cost for launch and for operation of these systems and what it allows us to do is to provide corrections and allow us to give uninterrupted connectivity in all parts of the world so basically they're continuous and global monitoring coverage with a prompt identification of issues for timely maintenance and repairs so like I said what that allows us to do is to deploy these situations these devices everywhere so Manpreet mentioned about real world solutions so what we're doing for our clients and the clients we're working for at the moment are Murphy Geospatial and ACOM that Manpreet mentioned looking at geohazard sites so collapsing structures such as roads and geohazards around environmental sectors and new technologies so new installations of infrastructure as well where there needs to be ongoing monitoring and the big issue there is also about power and it's about management and about remote management so those are the things that we're designing into these solutions as well as AI and and the actual sensors so just in summary what we do is integrate intelligent geospatial solutions in technology we provide cost-effective turnkey monitoring main question that we always get asked is what does that mean and how cheap is it well it's probably cheaper than anybody else so you can see here why we're working on this is this is a combination of commercial off-the-shelf components with our own firmware and our own power management on all of those and it's flexible so we can kind of tailor that to clients needs so configurable solutions providing millimeter level measurements with comms in remote and hard to reach areas we have solutions for that already but you can see where we're going in the future incorporating artificial intelligence and digital twins and we're also providing that R&D support test training and you get kind of the support of experts in this fields as well so just to summarise ends Manpreet Bhatia is your operations director we're here until the end of tomorrow myself as well Paul Bhatia we're on stand d3019 in hall 3.2 it's at the back in the corner so we haven't been getting that much traffic because everybody walks straight through so do come and see us you can talk more and learn more about what we're doing and you can scan the QR code obviously to get to our website thank you very much