前言
数据来源于王法辉教授的GIS和数量方法,以后有空,我会利用python来实现里面的案例,这里向王法辉教授致敬。
绘制普查人口密度格局
使用属性查询提取区边界
import numpy as np
import pandas as pd
import geopandas as gpd
import matplotlib.pyplot as plt
import arcpy
from arcpy import env
plt.style.use('ggplot')#使用ggplot样式
%matplotlib inline#输出在线图片
plt.rcParams['font.family'] = ['sans-serif']
plt.rcParams['font.sans-serif'] = ['SimHei']# 替换sans-serif字体为黑体
plt.rcParams['axes.unicode_minus'] = False # 解决坐标轴负数的负号显示问题
regions = gpd.GeoDataFrame.from_file('../Census.gdb',layer='County')
regions
BRTrt = regions[regions.NAMELSAD10=='East Baton Rouge Parish']
投影
BRTrt = BRTrt.to_crs('EPSG:26915')
BRTrt.crs
BRTrt.to_file('BRTrt.shp')
裁剪数据
Tract = gpd.GeoDataFrame.from_file('../Census.gdb',layer='Tract')
Tract = Tract.to_crs('EPSG:26915')
TractUtm = gpd.GeoDataFrame.from_file('TractUtm.shp')
BRTrtUtm = gpd.GeoDataFrame.from_file('BRTrt.shp')
Set workspace
env.workspace = r"MyProject"
Set local variables
in_features = "TractUtm.shp"
clip_features = "BRTrt.shp"
out_feature_class = "BRTrtUtm.shp"
xy_tolerance = ""
Execute Clip
arcpy.Clip_analysis(in_features, clip_features, out_feature_class, xy_tolerance)
计算面积和人口密度
BRTrtUtm = gpd.GeoDataFrame.from_file('BRTrtUtm.shp')
BRTrtUtm['area'] = BRTrtUtm.area/1000000
## 计算人口密度
BRTrtUtm['PopuDen'] = BRTrtUtm['DP0010001']/BRTrtUtm['area']
BRTrtUtm.to_file('BRTrtUtm.shp')
描述统计
BRTrtUtm['PopuDen'].describe()
人口密度图
fig = plt.figure(figsize=(12,12)) #设置画布大小
ax = plt.gca()
ax.set_title("巴吞鲁日市2010年人口密度模式",fontsize=24,loc='center')
BRTrtUtm.plot(ax=ax,column='PopuDen',linewidth=0.5,cmap='Reds'
,edgecolor='k',legend=True,)
plt.savefig('巴吞鲁日市2010年人口密度模式.jpg',dpi=300)
plt.show()
分析同心环区的人口密度格式
生成同心环
## 两种方法生成多重缓冲区的阈值
dis = list(np.arange(2000,26001,2000))
dis
dis = list(range(2000,26001,2000))
dis
## 真的特别神奇distances只有这样写列表才可以运行
Set local variables
inFeatures = "BRCenter"
outFeatureClass = "rings.shp"
distances = [2000, 4000, 6000, 8000, 10000,
12000, 14000, 16000, 18000,
20000, 22000, 24000, 26000]
bufferUnit = "meters"
Execute MultipleRingBuffer
arcpy.MultipleRingBuffer_analysis(inFeatures, outFeatureClass, distances, bufferUnit, "", "ALL")
相交
try:
# Set the workspace (to avoid having to type in the full path to the data every time)
arcpy.env.workspace = "MyProject"
# Process: Find all stream crossings (points)
inFeatures = ["rings", "BRTrtUtm"]
intersectOutput = "TrtRings.shp"
arcpy.Intersect_analysis(inFeatures, intersectOutput,)
except Exception as err:
print(err.args[0])
TrtRings = gpd.GeoDataFrame.from_file('TrtRings.shp')
TrtRings['area'] = TrtRings.area/1000000
TrtRings['EstPopu'] = TrtRings['PopuDen'] * TrtRings['POLY_AREA']
融合
arcpy.env.workspace = "C:/data/Portland.gdb/Taxlots"
Set local variables
inFeatures = "TrtRings"
outFeatureClass = "DissRings.shp"
dissolveFields = ["distance"]
statistics_fields = [["POLY_AREA","SUM"], ["PopuDen","SUM"]]
Execute Dissolve using LANDUSE and TAXCODE as Dissolve Fields
arcpy.Dissolve_management(inFeatures, outFeatureClass, dissolveFields, statistics_fields,)
DissRings = gpd.GeoDataFrame.from_file('DissRings.shp')
DissRings
DissRings['PopuDen'] = DissRings['SUM_PopuDe'] / DissRings['SUM_POLY_A']
DissRings.set_index('distance',inplace=True)
DissRings['PopuDen'].plot(kind='bar',x='distance',
xlabel='',figsize=(8,6))
plt.savefig('同心环人口密度图.jpg',dpi=300)
plt.show()
要素转点
Set environment settings
env.workspace = "BR.gdb"
Set local variables
inFeatures = "BRBlkUtm"
outFeatureClass = "BRBlkPt.shp"
Use FeatureToPoint function to find a point inside each park
arcpy.FeatureToPoint_management(inFeatures, outFeatureClass, "INSIDE")
标识
env.workspace = "MyProject"
Set local parameters
inFeatures = "BRBlkPt"
idFeatures = "DissRings"
outFeatures = "BRBlkPt_Identity.shp"
Process: Use the Identity function
arcpy.Identity_analysis(inFeatures, idFeatures, outFeatures)
数据筛选
BRBlkPt_Identity = gpd.GeoDataFrame.from_file('BRBlkPt_Identity.shp')
BRBlkPt_Identity.shape
BRBlkPt_Identity.tail()
## 选取数据
BRBlkPt_Identity = BRBlkPt_Identity[~(BRBlkPt_Identity['distance']==0.0)]
数据分组
rigs_data = pd.DataFrame(BRBlkPt_Identity.groupby(by=['distance'])['POP10'].sum(),columns=['POP10'])
rigs_data.reset_index(inplace=True)
rigs_data
数据连接
EstPopu = BRBlkPt_Identity[['distance','SUM_POLY_A','SUM_PopuDe']]
PopuDen = pd.merge(rigs_data,EstPopu,how='inner',left_on='distance',right_on='distance')
## 删除重复值,按理来说,应该没有重复值了,可以试试外连接
PopuDen.drop_duplicates(inplace = True)
分析和比较环形区人口和密度估值
PopuDen.set_index('distance',inplace=True)
PopuDen['EstPopu'] = PopuDen['SUM_PopuDe'] / PopuDen['SUM_POLY_A']
PopuDen['PopuDen1'] = PopuDen['POP10'] / PopuDen['SUM_POLY_A']
PopuDen['EstPopu'].plot(figsize=(10,6),marker='o',xlabel='距离(米)',ylabel='密度(人/平方千米)')
PopuDen['PopuDen1'].plot(marker='s',xlabel='距离(米)',ylabel='密度(人/平方千米)')
plt.legend(['基于街道','基于普查区'])
plt.savefig('基于普查区和街区数据的人口密度模式对比.jpg',dpi=300)
plt.show()
总结
2022年的第一次写笔记,写的不是很好,而且发现许多问题,比如就是geopandas里面的area和arcpy里面的area不一样,可能是算法不一样,面积要使用投影坐标系,我相信这个应该没有人不知道了吧,要对ArcGIS Pro里面的arcpy大赞。最近感谢也比较多,比如疫情,已经有点常态化,很影响我们的生活了。心怀感恩,希望我们都有美好的未来。春燕归,巢于林木。接下来一段时间,我要忙我的毕业论文,可能会比较忙,需要数据的可以联系我。
Original: https://www.cnblogs.com/truggling-zx/p/15781766.html
Author: 有我之境
Title: 利用python绘制分析路易斯安那州巴吞鲁日市的人口密度格局
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