 I am working as a senior manager of design at Gribble Desert and I am here to present on a lot of things in short we call it IOT. Now usually when you speak to someone about IOT there is a lot of technical jargon involved too much of adrope and big data and stuff that comes in. So this presentation is from a UX perspective. So as UX designers how does IOT impact us and how we can leverage it to provide the best of the UX experience. So these are everyday things that we see in like a Java port, a watch, a home, disaster management. Now you may think that how does a Java port get into the scene of IOT. Now there are many devices. So once this device is called this flower power and this device has actually got sensors for Wi-Fi. It has to Wi-Fi. It can measure sunrise, mid-temperature and what happens is that it feeds into a cloud and all this data is shown up on your mobile device. So it lets you know when your plant needs fertilizer, when it needs water and such things. So that way this flower pot is now on the IOT. It is generating some data and it is helping you take decisions on whether your plant is doing well or not. So in the same way we have seen how the watch has become a smart watch. We are using optical reality to control appliances in our home. So smart homes have come in, Apple has come up with the home kit and then disaster protection. So this is again something that is existing. It's nothing new. There are many such sensors across the oceans and lands which figure out earthquakes, figure out tsunamis and give us the warning in advance so we can take appropriate action. So now the question is what is IOT? I won't give you a definition because you will get a lot of different definitions on the web but I will give you the concept of IOT. So what you see here are sensors and actuators. So let's say there is a door lock and you have a, so let's say if you have a door lock and you have a key using which we open it, there could be a magnetic key as well as a magnetic to the lock and it opens up. But this thing is not an IOT because there is no data being generated. This device is not identifiable. It is just a unit by itself. Even though it has a sensor and an actuator, the sensor sensors the magnetics with and the actuator which opens the lock but it is not on the IOT. The moment it starts interacting with a system such as a cloud which is about server, internet, analytics or with the device. So any of these bi-directional relationships will establish the IOT concept. So every time let's say these days you get these small beacons. They are just Bluetooth devices and they are as big as the squaring and you can press it anywhere. So let's say if you have, press this in your car, when you walk into your car, your mobile phone app can figure out whether there is a beacon in here, there is a signal coming out. It can change the entire interface of the mobile device to show up navigation and stuff on the home screen, create the music of your choice and such things can be done. Any questions here? Good questions? You can take. As soon as something happens in the car, it will be given your message to your mobile user or something like that. Yeah. So a lot of different things are there and it sets a bigger explanation I will take out of the field after the session. I have come to some actual application of IOT. So something that we have done in the actual implementation. So the first case I'm showing to you is IOT in retail. So when often if you are shopping in some place in US, you often have a lot of offers or coupon codes with you and often you would have a vicious. But don't figure out which coupon applies to which item in my vicious and you often use out on the opportunity to make a discount purchase. Apart from that, often you have some items that you want to buy but you're not able to locate where it is on the aisles. Now think of this scenario that if you had a vicious on your mobile phone and if you are walking by a store, the app on your mobile can figure out that certain items on your vicious are there in the store available at an offer that you have on your mobile device. So we made an app for this for a major department of store in US and what we did was that each of the shelves have got the small beacons on them and on the back end the beacon IDs are tied to what items are available on those shelves. So a person is walking by those shelves, they are able to figure out that what items of their choice are available here at an offer which can benefit to them. We also did this payment system in which you don't have to actually go and swipe your card, your data is stored on your mobile phone, so you could actually make the purchase in order to do a physical swipe of the credit card. One more thing that we did over here was that you could also, so let's say if you are going out shopping and maybe watching a movie with your family, you wouldn't want to carry out all the stuff with you. So when you are buying the items in the shop, you could just scan the barcode and say I want to buy this item and item your virtual card, not your physical card that you have in the store but your virtual card and when you are checking you can say deliver to my home. So once you make the payment, at a later stage you can go into your movie and stuff and the stuff gets delivered to your home like you would do at online shopping but then this gives you the physical touch of the store. Similar thing in security services, so how do you carry IoT in access control or how it can help us do things in a better way? So we all carry our mobile devices all the time but then we are having to carry access card as well and at times if we need to access certain areas where we don't have access to, we have to go to the admin department, get the access and then come back there and then access that area which is not given to us by default. So here what we are doing is that we are again using the same concept and when the user walks into a door, the door automatically unlocks for him. There is no need to pick out your access card, swipe it on the gate and then get inside. As you approach the door, the door opens for you. So in this way that part is very smooth now. Apart from that if there is any device, for example if you have a laptop with you, when you enter the office you have to make an entry in the register. That was the laptop with me and when you walk out, do the same thing once again. Now if you attach one such beacon to the laptop inside it, whenever you are entering or sitting in the building, the data is being recorded automatically. So in that way your laptop, it is on the gate as it is but then now it becomes device on the IoT in the way of access card door, in the way of security services. Now IoT and energy, so this isn't that something that we have done, this is just a concept that we have. So IoT ties up very much with those big data and which just a bit disturbs interfaces. So now imagine there is a wind farm and this wind farm has got about 50 windmills. Each of these windmills have got about 10 sensors. They sense humidity, wind speed, the rotation speed of the blades, the temperature, the amount of vibration in that equipment and all these things. So imagine 10 sensors sending data every 10 seconds for 50 windmills. There is a huge amount of data. Now if you have to create a user interface for that, kind of a dashboard, how would you do that? Normally it would be a dashboard with lots of things blinking here and there, red, green and blue and that would make no sense to the end user. Now if you had an interface of something of this kind, then the user can interact with those in a kind of an environment that is more closer to the physical environment. And the difference, any alerts could be shown, the power generation could be shown and all of that could be done through a distributed interface. So if you take this step further, what happens with the technicians is that the people who are on the field, now they have to go and check each and every windmills how it is working, it is working good or not. Is there any problem with that? So it takes a long time to do that. Now imagine if you could give them an augmented reality based interface, if they could just scan the horizon with their mobile device and the same data which was there in the control center can show up over here in this kind of an interface that will help the technician identify easily that which windmills needs attention and they can go ahead and do it immediately. So there are a lot of companies who are already in this field of IoT and one such company is Google. You would have already loaned, you have got this Android VR, Dropcam, Google Fit, Android TV, Auto, Nest and Google Glass. Nest was a recent acquisition, Dropcam also was an acquisition. Now these are again our devices. So this Nest is a thermostat and it actually keeps learning from the user behavior. So if you have installed Nest as a thermostat in your home and you set it to a certain temperature, it will know okay this state, this time, this temperature and over a period of 3-4 days it will develop the pattern and it again uses the Wi-Fi, uses the cloud, it has analytics out there and that way it helps people by giving them a very good experience over a period of days. There are many other key players in this field Apple as we know has got health kit and home kit. Mercedes is doing a lot of things in the space of predictive user experiences. So what to do is that they use again the same sensor data and they figure out the user's behavior in the pattern. So what happens in this thing is that they by default Mercedes car would have an optical sensor in every seat and a wave sensor. Now the same data now they are using to enhance the user experience and how they are doing that is that if they sense that the driver seat is occupied and there is a certain wave so they know that the driver is there on the seat and over time the pattern is that this driver goes to a platform house and then towards the office. So next time once the pattern is identified the driver doesn't have to show so many directions to this place or play this music that happens automatically. So the amount of touch points or interactions for the end user goes down because the system is getting more and more corrective. Now let's say the car senses that there is a child so weight is less of 5 feet which means there is a child in there then the car goes to the school then to cafe then to office. In the same way the car will customize the experience for the driver. So that is how Mercedes is doing is using IoT to enhance customer experiences a lot of these companies are doing a lot of innovative stuff and now that is what representation is so far. I am open to questions now.