studyb.Rmd

---
title: "Pilot study B: Application of FLIR One Pro thermal camera for  surface water quality assesment"
subtitle: "Thermography of (surface) water temperature"
output: html_document
---

```{r, out.width = "100%", echo=FALSE}
knitr::include_graphics("flir.png") 
```
*FLIR One Pro thermal camera attached on a Samsung Galaxy S8 smartphone.* 

***

###Field experiments

**Interactive map with field experiment results**

<iframe width="75%" height="500" src="thermal_leaflet.html" frameborder="0" allowfullscreen></iframe>

[Click here for a full screen preview ](https://williamtjiong.github.io/remotesensing/thermal_leaflet.html)


![](montage.jpg){width="40%"} ![](montage1.jpg){width="40%"}

FLIR one Pro thermal camera setup for the drone experiment

**Thermal images from field experiments**

![](turb_flir.png){width="75%"}
![](turb_flir2.png){width="75%"}
![](flir1.jpg){width="37.2%"} ![](flir2.jpg){width="37.2%"}

![](flir2.jpg){width="37.2%"} ![](flir3.jpg){width="37.2%"}

Solar reflectance can be observed on some of the thermal images above.

***

###Laboratory experiments

**Setup**

![Experiment 1: Cold clear water and cold turbid water](materials.png){width="75%"}

![Experiment 2: Hot water and emmissivity of materials](strips.png){width="75%"}

![Experiment 3: Confluence of hot and cold water](streamtable.png){width="75%"}

**Thermal images from laboratory experiments**

![](flir_res1.jpg){width="75%"}
![](flir_res2.PNG){width="75%"}

Observed temperature differences from the thermal images