Environmental-Electrical-Measurements-PV/Environmental.py

import matplotlib.pyplot as plt
from matplotlib.font_manager import FontProperties
import pandas as pd

# Importing data

med = pd.read_csv('med.csv')
med_discri = pd.read_csv('med_discri.csv')
data_plot= pd.read_csv('data_plot.csv')

############## FILTERING DATA ##############

# 24 Hrs light intensity
luxes = med.iloc[0:288,0]

#Plotting Luxes data
plt.plot(luxes,'.k')
plt.xlabel('Sample Number')
plt.ylabel('[Lx]', rotation=90)
plt.show()

# The data filtering function depending on the time. B and e sets upper and lower limits.
def FilteringData(b,e):
    filtered_med = med[(med['hh'] >= b ) & (med['hh'] <= e)]
    #Saving luxes, temp, hum and power data
    luxesf = filtered_med.iloc[:,0].tolist()
    tempf  = filtered_med.iloc[:,1].tolist()
    humf   = filtered_med.iloc[:,2].tolist()
    powf   = filtered_med.iloc[:,5].tolist()

    return luxesf, tempf, humf, powf

############## PLOTTING DATA FUNCTION ##############
#Inputs: Luxes, Temperature, Humidity and Power
#Output: Vs graph 4x4

def GenGraph(luxesf, tempf, humf, powf):
    # Generates  a figure of size 4x4
    figure, axis = plt.subplots(4,4, figsize=(8,6))
    # Defines limits for plotting luxes, temperature, humidity and power
    luxlim=(2055,48000)
    templim=(13,50)
    humlim=(12,88)
    powlim=(0.68,11.61)
    #Text fontsize
    fontsize=16
    Tfont = FontProperties(family='serif', style='normal',size=fontsize)
    #Tiles fontsize, family font
    font = FontProperties(family='serif',style='italic',size=fontsize)
    #Positon for subplots titles
    Tx=1.15
    Ty=0.36
    
    #Plotting luxes vs temp, hum, pow: (0,0)-(0,3)
        #Positions the Lux title at thge coordinates (0,0)
    axis[0,0].text(0.5,0.5,'Lux', verticalalignment='center', horizontalalignment='center',font = Tfont)
        # Clears the frame and spines
    for spine in axis[0,0].spines.values():
        spine.set_visible(False)
    
    axis[0,1].scatter(luxesf,tempf, s=5, c='none', marker='.', facecolors='none', edgecolors='black', alpha=1)
    axis[0,1].set(xlim=luxlim,ylim=templim)
    axis[0,1].set_title('a)',y=Ty, x=Tx)
    
    axis[0,2].scatter(luxesf,humf, s=5, c='none', marker='.', facecolors='none', edgecolors='black', alpha=1)
    axis[0,2].set(xlim=luxlim,ylim=humlim)
    axis[0,2].set_title('b)',y=Ty, x=Tx)
    
    axis[0,3].scatter(luxesf,powf, s=5, c='none', marker='.', facecolors='none', edgecolors='black', alpha=1)
    axis[0,3].set(xlim=luxlim,ylim=powlim)
    axis[0,3].set_title('c)',y=Ty, x=Tx)
    
    #Plotting temp vs luxes, hum and pow: (1,0)-(1,3)
    axis[1,0].scatter(tempf,luxesf, s=5, c='none', marker='o', facecolors='none', edgecolors='black', alpha=0.3)
    axis[1,0].set_title('d)',y=Ty, x=Tx)
    axis[1,0].set(xlim=templim,ylim=luxlim)
    axis[1,0].set_ylim(luxlim)
    
    #Positions the Temp title at thge coordinates (1,1)
    axis[1,1].text(0.5,0.5,'Temp', fontsize=fontsize, verticalalignment='center', horizontalalignment='center', font = Tfont)
    #Clears the frame and spines
    for spine in axis[1,1].spines.values():
        spine.set_visible(False)
    
    axis[1,2].scatter(tempf,humf, s=5, c='none', marker='.', facecolors='none', edgecolors='black', alpha=1)
    axis[1,2].set_title('e)',y=Ty, x=Tx)
    axis[1,2].set(xlim=templim,ylim=humlim)
    
    axis[1,3].scatter(tempf,powf, s=5, c='none', marker='.', facecolors='none', edgecolors='black', alpha=1)
    axis[1,3].set_title('f)',y=Ty, x=Tx)
    axis[1,3].set(xlim=templim,ylim=powlim)
    
    #Plotting hum vs luxes, temp and pow: (2,0)-(2,3)
    axis[2,0].scatter(humf,luxesf, s=5, c='none', marker='o', facecolors='none', edgecolors='black', alpha=0.3)
    axis[2,0].set_title('g)',y=Ty, x=Tx)
    axis[2,0].set(xlim=humlim,ylim=luxlim)
    
    axis[2,1].scatter(humf,tempf, s=5, c='none', marker='o', facecolors='none', edgecolors='black', alpha=0.3)
    axis[2,1].set_title('h)',y=Ty, x=Tx)
    axis[2,1].set(xlim=humlim,ylim=templim)
    
        #Positions the Hum title at thge coordinates (2,2)
    axis[2,2].text(0.5,0.5,'Hum', fontsize=fontsize, verticalalignment='center', horizontalalignment='center', font = Tfont)
        #Clears the frame and spines
    for spine in axis[2,2].spines.values():
        spine.set_visible(False)
    
    axis[2,3].scatter(humf,powf, s=5, c='none', marker='.', facecolors='none', edgecolors='black', alpha=1)
    axis[2,3].set_title('i)',y=Ty, x=Tx)
    axis[2,3].set(xlim=humlim,ylim=powlim)
    
    #Plottign power vs luxes, temp and hum: (3,0)-(3,3)
    axis[3,0].scatter(powf,luxesf, s=5, c='none', marker='o', facecolors='none', edgecolors='black', alpha=0.3)
    axis[3,0].set_title('j)',y=Ty, x=Tx)
    axis[3,0].set(xlim=powlim,ylim=luxlim)
    
    axis[3,1].scatter(powf,tempf, s=5, c='none', marker='o', facecolors='none', edgecolors='black', alpha=0.3)
    axis[3,1].set_title('k)',y=Ty, x=Tx)
    axis[3,1].set(xlim=powlim,ylim=templim)
    
    axis[3,2].scatter(powf,humf, s=5, c='none', marker='o', facecolors='none', edgecolors='black', alpha=0.3)
    axis[3,2].set_title('l)',y=Ty, x=Tx)
    axis[3,2].set(xlim=powlim,ylim=humlim)
    
        #Positions the Hum title at thge coordinates (2,2)
    axis[3,3].text(0.5,0.5,'Pow', fontsize=fontsize, verticalalignment='center', horizontalalignment='center', font = Tfont)
        #Clears the frame and spines
    for spine in axis[3,3].spines.values():
        spine.set_visible(False)
    
     #Clears all graphic's spines and ticks label
    for ax in axis.flat:
        ax.set_xticklabels([])
        ax.set_xticks([])
        ax.set_yticklabels([])
        ax.set_yticks([])
        for text in [ax.title]:
            text.set_font_properties(font)
            
    #Defines width space and height space
    plt.subplots_adjust(wspace=0.4,hspace=0.06)
    plt.savefig("Graph.png")
    plt.show()

############## PLOTTING TEMPERATUR BAR FUNCTION ##############
# Inputs: x data, y data, x limits (xmin,xmax), y limits (ymin,ymax), x title, y title, temperature
# Output:  Vs Graph with Temperature bar

import numpy as np
def GenGraphTemp(x,y,xlim,ylim,xtitle,ytitle,temp):

    fig, ax = plt.subplots(figsize=(7,6))
    scatter = ax.scatter(x,y, c=temp, cmap='gray', s=50, edgecolors='none', linewidths=1.5, vmin=0, vmax=70)
    ax.set(xlim=xlim,ylim=ylim, xlabel=xtitle, ylabel=ytitle)
    ax.grid(True, linestyle='--', linewidth=0.5,alpha=0.7)
    ax.tick_params(axis='both', direction='in',length=5,width=1, top=True, right=True)
    ColorBar = fig.colorbar(scatter,ax=ax,label='Temp[°C]')
    plt.savefig(f"{xtitle} vs {ytitle}",".png")
    plt.show()
    
############## PLOTTING DATA IN 4X4 ##############

# Own filtered data
luxesf, tempf, humf, powf = FilteringData(9,19)
GenGraph(luxesf,tempf,humf,powf)

# Data_plot data base

luxesplt = data_plot.iloc[:,0].tolist()
tempplt  = data_plot.iloc[:,1].tolist()
humplt   = data_plot.iloc[:,2].tolist()
powplt   = data_plot.iloc[:,3].tolist()
GenGraph(luxesplt,tempplt,humplt,powplt)

# med data base

luxesm = med.iloc[:,0].tolist()
tempm  = med.iloc[:,1].tolist()
humm   = med.iloc[:,2].tolist()
powm   = med.iloc[:,5].tolist()
GenGraph(luxesm,tempm,humm,powm)

# med_discri data base

luxesdi = med_discri.iloc[:,0].tolist()
tempdi  = med_discri.iloc[:,1].tolist()
humdi   = med_discri.iloc[:,2].tolist()
powdi   = med_discri.iloc[:,5].tolist()
GenGraph(luxesdi,tempdi,humdi,powdi)

############## PLOTTING DATA USING TEMPERATURE BAR ##############

# Luxes vs Power
xlim=(2055,51000)
ylim=(1,12)
# Own filtered data
GenGraphTemp(luxesf,powf,xlim,ylim,'Luxes[lx]',"PV's Power[W]",tempf)
# Data_plot data base
GenGraphTemp(luxesplt,powplt,xlim,ylim,'Luxes[lx]',"PV's Power[W]",tempplt)
# med data base
GenGraphTemp(luxesm,powm,xlim,ylim,'Luxes[lx]',"PV's Power[W]",tempm)
# med_discri data base
GenGraphTemp(luxesdi,powdi,xlim,ylim,'Luxes[lx]',"PV's Power[W]",tempdi)

# Humidity vs Power
xlim2=(15,100)
# Own filtered data
GenGraphTemp(humf,powf,xlim2,ylim,'Luxes[lx]',"PV's Power[W]",tempf)
# Data_plot data base
GenGraphTemp(humplt,powplt,xlim2,ylim,'Luxes[lx]',"PV's Power[W]",tempplt)
# med data base
GenGraphTemp(humm,powm,xlim,ylim2,'Luxes[lx]',"PV's Power[W]",tempm)
# med_discri data base
GenGraphTemp(humdi,powdi,xlim2,ylim,'Luxes[lx]',"PV's Power[W]",tempdi)