 اصلا. عودر خیل، اا برستر. CTO and co-founder of TransferFy. ایا دوڑن به دوڑن صناست که باستر و کشه آفریدان از فجر باستر. از فجرسی آخر، از نقدر اینی باست که که بعدن است فجرسی حوار و منه دواری هدع منه این باستر. اگه که باستر باستر، ادوال روزده. فرق را اطلاق تکویه کنها نوستهم بخلال جو منبذار من آج نجایمRAP تشار than را ماندی اگه را اجه م مترسید روزها، اشطف حولموار, از ببفرد just اکفار را امان بود شایدها. بل شاید خمایه را نمیو را را اطلاق و دموه و از کسر که دموه و احيان خمام را و ترون گرهو است، مواشورت دارست چند بفوردی افتیشنسی در حلم Eve 100 امروح در امتعاؤناد برای سوراه نوردی تزویدد دو بیم صورد بیم موریم به رد نموین بابه نوفاقیس تزوید انبطاریه بیم ووقز خیصی از نوردی حیش سوصداً مو Pode موکز داره روز را باندی باها روز روز روز روز روز روز روز روز روز روز روز روز روز اطبائی روزانی در اهکف دیونه یارا؟ این برایروزیی روزنی اوانبیمن آنجای چیز که با روزی روزی بدید از دیتا که برایروزه که برقی kinds ا انتنیو وانت کا در از دیتای روزید، این فکرست را از اطبائی می که با روزید این اق با ناریگی من زیادشو به جارما هست از بدای نوگ از اضافر از از نوگs روزید، اق با روزید که پ diagram محجود آوه م PhoERS آرس می اینامگه او تراهنه ديناح روانه باش трав모ی دNew اصلاه م above اتن poem و دي exotic دويت کن توهزم اصلا هم از آهد than the other devices. Everything is based on the feedback that we have it. Then we have the combined data and power transmission over the same band. We call it SWIP, simultaneous information and power transfer. We have the technology electronic dashboard, which is almost like a fuse box that you have at home. So when something trips at home, you go and check which part, you go and solve the issue. It's a digital version of that one. Every moment, every second, you know what is going on your wireless power network. You're monitoring all the devices, how much power they have. So how long they can go with the current state of charge. When they are going to be recharged again. So if I want to compare the transfer file with the bigger guys here. We have the multi-device charging up to 32 devices currently. We have the new waveform design, which is PayTenter. We have the active beamforming. We are developing 32-element antenna for active beamforming. Currently, 8-element device is tested. If you see the competitors, the only one is the energist. It's more than $200 million investment. They are working and looking for 8 elements. We verified how it works. Efficiency proven. So we have the more than 10 milliwatt power delivery over 25 meters, which is more than enough for all the IoT devices nowadays. So if I want to compare in terms of the quality of service in IoT, we consider ourselves to provide the energy to high-end devices. High-end sensors from the Rockwells, immense and bigger guys. Compared to the low-quality, low-sample-rate devices, IoT devices and sensors, which are from the new developers, like a sweep sensor or IQ net. So they are focused on the new sensors, which they send data maybe 30 times per day, which is cool for the project in the, for example, making smart houses or monitoring the temperature within this area. But it's not useful in industry. In industry, some of the application requires 10 or 100 samples per second. Every millisecond, you need to know what is going on in your device. Otherwise, it can fail and cause trouble. So in terms of the efficiency, maybe you wonder what's the efficiency. We showed through the simulation if we have the area of 20 meters by 20 meters, room, if we deploy up to 800 sensors over the line of manufacturing lines, like assembly lines or these things, we can achieve up to 35% efficiency in total end-to-end in terms of the transmission. So in terms of the team, so I got my Ph.D. degree from U.S. I've worked for years as a research, as a research student attached to I-square-R. The other co-founder of the company, C.O. Ashish, he's here also. He used to work with National Instruments for eight years. We are also actively looking for embedded system engineers. We are looking for RF engineers. We are looking for antenna design gods. If you are interested to work with us in some of this project, let me know at the end of this event. We also have the advisory team. Dave is working for the how to run the startups, give the more general comments how we need to set up the system, how to approach the investor, these things. We have the Chandran. He is more focused on the sale. And we have Dr. Jangrave, which is technical advisor for us. He is the number one in terms of the citation in the field of wireless power transfer. More than 25,000 citations and publish about 500 papers in total so far. So transfer is taking the next revolution for power delivery. So anybody interested please just talk with us after this. Thank you. You mentioned beam forming. But you also mentioned that there are multiple devices that can be accepted by this transmission up to 32. So the beam forming happens at a higher rate to each and every device. So beam forming, the idea is if we take the omnidirectional antenna, it transmits the waves like a circular wave. Goes everywhere. We use 32 elements of antennas to direct the beam. Make it a small cone, which can be directed to different direction. How we implement the multi-device charging? We have the smallest scheduling. We specifically give a time slot to each of the devices to be charged in one direction. For example, device number one, we charge it for two seconds. We move to the device number two, which is this side. We have all the list of the devices and how long and when they should be charged. So in order to do that, you need some free knowledge of where these devices may be. Okay, that one using the feedback, energy feedback. When we are transmitting the power initially like a random direction, we get the feedback from all these sensors. Then we understand which sensor is which location. We store this information in the lookup table that we have. Then we use that one to redo the charge within the next time slots. So if necessary, we can just reoptimize the location. So the feedback is like radar kind of feedback or is it they actually transmit? Real time. No, it's not a radar. It's active feedback in terms of the power level, RSSI in particle. Have you ever demonstrated with any viable sensors or any sort? So the sensor that we are currently using, this guy. Okay, this guy has three-axis accelerometer from SD electronics plus environmental monitoring from the Bosch. The sensor itself is not designed with us. It's from Ruby Tech, which is a very famous company doing the sensor things. But what we did, we take out the battery out of the system. There is no battery. If you open the box, there is nothing. No storage. So there are two antennas and the rectifier circuit, which we optimize. Plus our transmitter. When you enter the area that the transmitter is in the vicinity of the transmitter, you get charged and start the transmission immediately. Any more questions? Thank you.