 Okay, and I'll full screen please. It's okay. No, this is not. This is a sort of presenters version so you have to make it into full screen version. Okay, sorry. No problem. Take your time. Nope. Oh, that's the one. Okay. Yeah. Yes, that's fine. Yes. Please. I can see my notes. Okay. Thank you very much for organization. I'm so happy to join this panel discussion. And so I'm first question is my answer is yes. But in order to realize cooler cities, it is important to evaluate first, I think. So my presentation is create creating a risk assessment model of heat stroke for the realization of cooler cities. So wait a second. Okay. Yeah. In Japan heat stroke has become a social problem as a number of extremely hot days above 35 degrees Celsius continues to increase year after year. Right graph is relationship between max temperature and number of emergency carries or into heat stroke in Tokyo. It is increasing exponentially when the temperature is high around about 400 people a day are affected. Therefore, we need to think of ideas to reduce the temperature as much as possible and reduce this heat stroke. To this end, I am first attempting to create the heat stroke risk model. Secondly, if we know which policies can reduce the temperature by how much we can see how much we can reduce heat stroke. I am trying to evaluate how much heat stroke can be reduced by vegetation, especially. So this is a typical model mainly used in previous research to create the risk model. I use GNO GAM to generalize additive models in times to ratified case per subanalysis and multiple regression model. I made three patterns. So today I brought one of the results of case per subanalysis. This is the lowest RMS model. So I calculate the number of patients by this model. It is easy calculation. So according to previous studies, evapotranspiration along or in combination with sunshades has helped reduce peak summer temperatures by one to five degrees. So if it drops one degree by average, 110 patients can be reduced in Tokyo. If the temperature is reduced by five degrees, 310 patients can be reduced. So social costs such as medical expenses can be reduced. So therefore I think that even one degree change has a great impact on health and policies such as vegetation are effective. And also, Makoto also said that earlier, we are involved in the development of the applications that teaches us the cool route when working around center of Tokyo. So at the same time, you can see data such as how much CO2 or NO2 the trees are reducing. So I want to include to evaluate the heat stroke reduction effect of this route. So I am researching now. So anyway, second question, so how feel cooler. So this is Singapore cities. This is Japan. So it looks like gray street. And when I went to Singapore, I was so impressed this greenery. So under pass can, so this is piles. So under pass can green, greenly. So I think, I think looks green is more effective for fail people. And also, also, both, and I think more, add any options. So perhaps, for example, and the tree with this bell is wind bell. This is very old fashioned Japanese culture. So when the wind coming, like this wind and feel sound is feel cool. And when the children play baseball game in early morning or evening. So now the two children always play. At noon, it's so hot, hot, hot environment. So with green and change our behavior. So this is guys have some shade umbrella in Japan. So almost using umbrella shade sun shade umbrella is woman use. So change our behavior. I think I think it's better. That's it. Thank you very much for listening.