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On April 21, 2023 at 11:05:09 AM +0200, Mathieu Ronkes Agerbeek:

Updated description of Apparent temperature data from
Apparent temperature data from thermal walks organized by the City of Amersfoort to be able to evaluate how people perceive temperature at certain locations. The subjective opinions of the participants of the thermal walk are complemented by measurements from a sensor measuning air temperature, wind speed and humidity. # METHOD AND APPROACH Usually city designers use maps, calculations and models to find solutions for urban heat stress. In this project, we explored the use of a different method: thermal walks. Thermal walks focus on involving citizens by asking them how they perceive heat stress. As such, it tries to incorporate data on their experience of heat ‘in real life’. In Amersfoort we planned ten thermal walks for inhabitants in the summer of 2022. The city is, amongst others, designed for inhabitants, so our focus was to experience heat with inhabitants themselves. An additional benefit is that by doing so, awareness on heat stress and the negative effect it can have on health is enhanced. During the thermal walks, groups of participants walked through predesigned routes throughout the city. They were accompanied by one or more representatives from COA. During the walks, participants were asked to fill out short surveys on predefined locations. The surveys had to be filled in digitally, so a smartphone with internet was required. To lower barriers to participate citizens who did not have a smartphone available were provided with a model owned by COA. The walk focused on gathering data on subjective heat experience. Examples of questions that were included are: are the thermal conditions on this location pleasant for you? If not, would you prefer colder or warmer temperatures? And which circumstances on this location influence your thermal experience here? The guided walks followed three routes and started on three predefined locations: near the Central Railway area, in the neighborhood called Schothorst and in the city centre (see figure 4). There were five to seven stops during each route. At each stop the survey was filled out on two locations: one in the sun and one in a shadow spot. Besides the subjective heat stress, a sensor was used to measure objective heat stress. The sensor used was a JDC Skywatch BL 500. It includes measurements of wind, air pressure, UV index, humidity and temperature. The sensor connects via Bluetooth with a smartphone to read the measurements. In the app a route can be tracked, saved and published online. At each location a waiting time of one minute was used to allow the sensor and participants to acclimatize.
to
Apparent temperature data from thermal walks organized by the City of Amersfoort to be able to evaluate how people perceive temperature at certain locations. The subjective opinions of the participants of the thermal walk are complemented by measurements from a sensor measuring air temperature, wind speed and humidity. # Method and approach Usually city designers use maps, calculations and models to find solutions for urban heat stress. In this project, we explored the use of a different method: thermal walks. Thermal walks focus on involving citizens by asking them how they perceive heat stress. As such, it tries to incorporate data on their experience of heat ‘in real life’. In Amersfoort we planned ten thermal walks for inhabitants in the summer of 2022. The city is, amongst others, designed for inhabitants, so our focus was to experience heat with inhabitants themselves. An additional benefit is that by doing so, awareness on heat stress and the negative effect it can have on health is enhanced. During the thermal walks, groups of participants walked through predesigned routes throughout the city. They were accompanied by one or more representatives from COA. During the walks, participants were asked to fill out short surveys on predefined locations. The surveys had to be filled in digitally, so a smartphone with internet was required. To lower barriers to participate citizens who did not have a smartphone available were provided with a model owned by COA. The walk focused on gathering data on subjective heat experience. Examples of questions that were included are: are the thermal conditions on this location pleasant for you? If not, would you prefer colder or warmer temperatures? And which circumstances on this location influence your thermal experience here? The guided walks followed three routes and started on three predefined locations: near the Central Railway area, in the neighborhood called Schothorst and in the city centre (see figure 4). There were five to seven stops during each route. At each stop the survey was filled out on two locations: one in the sun and one in a shadow spot. Besides the subjective heat stress, a sensor was used to measure objective heat stress. The sensor used was a JDC Skywatch BL 500. It includes measurements of wind, air pressure, UV index, humidity and temperature. The sensor connects via Bluetooth with a smartphone to read the measurements. In the app a route can be tracked, saved and published online. At each location a waiting time of one minute was used to allow the sensor and participants to acclimatize.

              
    
          
          
        
        
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            42   "notes": "Apparent temperature data from thermal walks organized by  42   "notes": "Apparent temperature data from thermal walks organized by 
            43 the City of Amersfoort to be able to evaluate how people perceive  43 the City of Amersfoort to be able to evaluate how people perceive 
            44 temperature at certain locations. The subjective opinions of the  44 temperature at certain locations. The subjective opinions of the 
            45 participants of the thermal walk are complemented by measurements from  45 participants of the thermal walk are complemented by measurements from 
            t 46 a sensor measuning air temperature, wind speed and humidity. \r\n\r\n#  t 46 a sensor measuring air temperature, wind speed and humidity. \r\n\r\n# 
            47 METHOD AND APPROACH\r\nUsually city designers use maps, calculations  47 Method and approach\r\n\r\nUsually city designers use maps, 
            48 and models to find solutions for urban heat stress. In this project,  48 calculations and models to find solutions for urban heat stress. In 
            49 we explored the use of a different method: thermal walks. Thermal  49 this project, we explored the use of a different method: thermal 
            50 walks focus on involving citizens by asking them how they perceive  50 walks. Thermal walks focus on involving citizens by asking them how 
            51 heat stress. As such, it tries to incorporate data on their experience  51 they perceive heat stress. As such, it tries to incorporate data on 
            52 of heat \u2018in real life\u2019. In Amersfoort we planned ten thermal  52 their experience of heat \u2018in real life\u2019. In Amersfoort we 
            53 walks for inhabitants in the summer of 2022. The city is, amongst  53 planned ten thermal walks for inhabitants in the summer of 2022. The 
            54 others, designed for inhabitants, so our focus was to experience heat  54 city is, amongst others, designed for inhabitants, so our focus was to 
            55 with inhabitants themselves. An additional benefit is that by doing  55 experience heat with inhabitants themselves. An additional benefit is 
            56 so, awareness on heat stress and the negative effect it can have on  56 that by doing so, awareness on heat stress and the negative effect it 
            57 health is enhanced.\r\n\r\nDuring the thermal walks, groups of  57 can have on health is enhanced.\r\n\r\nDuring the thermal walks, 
            58 participants walked through predesigned routes throughout the city.  58 groups of participants walked through predesigned routes throughout 
            59 They were accompanied by one or more representatives from COA. During  59 the city. They were accompanied by one or more representatives from 
            60 the walks, participants were asked to fill out short surveys on  60 COA. During the walks, participants were asked to fill out short 
            61 predefined locations. The surveys had to be filled in digitally, so a  61 surveys on predefined locations. The surveys had to be filled in 
            62 smartphone with internet was required. To lower barriers to  62 digitally, so a smartphone with internet was required. To lower 
            63 participate citizens who did not have a smartphone available were  63 barriers to participate citizens who did not have a smartphone 
            64 provided with a model owned by COA.\r\n\r\nThe walk focused on  64 available were provided with a model owned by COA.\r\n\r\nThe walk 
            65 gathering data on subjective heat experience. Examples of questions  65 focused on gathering data on subjective heat experience. Examples of 
            66 that were included are: are the thermal conditions on this location  66 questions that were included are: are the thermal conditions on this 
            67 pleasant for you? If not, would you prefer colder or warmer  67 location pleasant for you? If not, would you prefer colder or warmer 
            68 temperatures? And which circumstances on this location influence your  68 temperatures? And which circumstances on this location influence your 
            69 thermal experience\r\nhere?\r\n\r\nThe guided walks followed three  69 thermal experience\r\nhere?\r\n\r\nThe guided walks followed three 
            70 routes and started on three predefined locations: near the Central  70 routes and started on three predefined locations: near the Central 
            71 Railway area, in the neighborhood called Schothorst and in the city  71 Railway area, in the neighborhood called Schothorst and in the city 
            72 centre (see figure 4). There were five to seven stops during each  72 centre (see figure 4). There were five to seven stops during each 
            73 route. At each stop the survey was filled out on two locations: one in  73 route. At each stop the survey was filled out on two locations: one in 
            74 the\r\nsun and one in a shadow spot.\r\n\r\nBesides the subjective  74 the\r\nsun and one in a shadow spot.\r\n\r\nBesides the subjective 
            75 heat stress, a sensor was used to measure objective heat stress. The  75 heat stress, a sensor was used to measure objective heat stress. The 
            76 sensor used was a JDC Skywatch BL 500. It includes measurements of  76 sensor used was a JDC Skywatch BL 500. It includes measurements of 
            77 wind, air pressure, UV index, humidity and temperature. The sensor  77 wind, air pressure, UV index, humidity and temperature. The sensor 
            78 connects via Bluetooth with a smartphone to read the measurements. In  78 connects via Bluetooth with a smartphone to read the measurements. In 
            79 the\r\napp a route can be tracked, saved and published online. At each  79 the\r\napp a route can be tracked, saved and published online. At each 
            80 location a waiting time of one minute was used to allow the sensor and  80 location a waiting time of one minute was used to allow the sensor and 
            81 participants to acclimatize.", 81 participants to acclimatize.",
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