belajar dasar geospatial sistem informasi geografi

Chapter 2
GEOSPASIAL

Data spasial
Data grafis/geometris
•menyimpankenampakan-kenampakan
permukaanbumi
Atribut/ Data tabular
•menyimpanatributdarikenampakan-
kenampakanpermukaanbumi, data
sosialekonomi
Types of Geographic Data

MODEL
DATA

Types of Geographic Data
GIS
GEOSPASIAL
KARTOGRAFI
PENGIDERAAN
JAUH
GPS
APLIKASI
VECTOR
RASTER
DATABASES
WEB
MULTITEMPORAL
https://gisgeography.com/gis-formats/

Types of Geographic Data
GIS
GEOSPASIAL
KARTOGRAFI
PENGIDERAAN
JAUH
GPS
APLIKASI
VECTOR
RASTER
DATABASES
WEB
MULTITEMPORAL
DATA VEKTOR
merupakanbentukbumiyang direpresentasikanke
dalamKumpulan
1)garis,
2)area (daerahyang dibatasioleh garis yang
berawaldan berakhirpada titikyang sama),
3)titikdan
4)nodes (merupakantitikperpotonganantara
dua buahgaris)

DATA VEKTOR
Data titik
•tersimpansebagaisebuahkoordinat(X,Y).
Data garis
•merupakandata-data titikyang salingterhubung(X1,Y1) (X2,Y2) (X3,Y3)….
(Xn,Yn).
Data luasan/area (poligon)
•merupakandata garisyang membentukkurvatertutup(X1,Y1) (X2,Y2)
(X3,Y3)…. (X1,Y1).
Data Permukaan(surface)
merupakansuatuarea dengankoordinat3 dimensi(X1,Y1, Z1)
RasterVektor Atribut

merupakanbentukbumiyang direpresentasikankedalam
Kumpulan
1)garis,
2)area (daerahyang dibatasioleh garis yang berawaldan
berakhirpada titikyang sama),
3)titikdan
4)nodes (merupakantitikperpotonganantaradua buah
garis)
DATA VEKTOR
Raster Vektor Atribut

Merupakanrepresentasiyang cocokuntukpenyajian
dalamformat peta(konvensional).
Obyekgeografisdisajikandalamtitikatausegmen
garis.
Keuntungandanketerbatasannya:
◦Tidakmembutuhkantempatpenyimpanandata
yangbesar
◦Penyajiangarisyangsangathalus
◦Perhitunganluasareamemerlukanalgoritmayang
lebihkompleks
◦Merupakan data baku pembentuk data spasial untuk
keperluan SIG/peta
Data Vektor
Raster Vektor Atribut

Types of
Geographic Data
GIS
GEOSPASIAL
KARTOGRAFI
PENGIDERAAN
JAUH
GPS
APLIKASI
VECTOR
RASTER
DATABASES
WEB
MULTITEMPORAL
Raster data is made up of pixels (also
referred to as grid cells). They are
usually regularly spaced and square
but they don’t have to be. Rasters
often look pixelated because each
pixel has its own value or class
RASTERRASTER
Raster data is made up of pixels
(also referred to as grid cells). They
are usually regularly spaced and
square but they don’t have to be.
Rastersoften look pixelated
because each pixel has its own
value or class
CONTINUOUS RASTERS (non-
discrete) are grid cells with gradually
changing data such as elevation,
temperature, or an aerial photograph.
DISCRETE RASTERS have distinct
themes or categories. For example, one
grid cell represents a land cover class or a
soil type

STRUKTUR DATA RASTER
setiapinformasidisimpan
dalam petak-petak
bujursangkar(grid),yang
membentuksebuahbidang.
Petak-petakbujursangkaritu
disebutdenganpixel(picture
element).Posisisebuahpixel
dinyatakandenganbariske-m
dankolomke-n.
kolom
baris
pixel (x,y, n1,n2,n3)
sumbu y
sumbu x
n1,n2,n3 : attribute
kolom
baris
pixel (x,y, n1,n2,n3)
sumbu y
sumbu x
n1,n2,n3 : attribute
Raster Vektor Atribut

Pixel
PIXEL
Raster Vektor Atribut

Perbandingan
Raster vsVektor

Vector vs Raster: Spatial Data Types
Do you want to work with pixels or coordinates?
 Raster data works with pixels. Vector data consists of coordinates.
What is your map scale?
Vectors can scale objects up to the size of a billboard. But you don’t
get that type of flexibility with raster data
Do you have restrictions on file size?
Raster file size can result in much larger (in comparison with vector
data sets with the same phenomenon and area).
https://gisgeography.com/gis-formats/
GIS FORMAT

Semua obyekgeografisdalambentukdinyatakandengan selataupiksel
(luasan kecil) yang merupakantitikyang mempunyaikoordinatdan atribut.
Merupakanpendekatanyangsesuaidengandatainderajaberupacitra
digitalyangmerupakansalahsatudatamasukanSIG.
Keuntungandanketerbatasannya:
◦Membutuhkantempatpenyimpanandatayangbesar
◦Penyajiankurangbaik/kuranghalustergantungresolusi
◦Merupakandatabakupembentukcitradijitalpadasisteminderaja
Data Raster
Raster Vektor Atribut

Sumberdata raster
Gambar
•Digital Raster
Graphic
•Hasilscan peta
FotoUdara
•Hitamputih
•berwarna
Citra satelit
•Resolusi
Rendah
•Resolusitinggi

Fotoudara

Kelebihan
Letakgeografisdinyatakansecaraeksplisit
berdasarkanposisipiksel/ grid-cell
Data raster bersifatinherent (tiaparea memiliki
atributsendiri) sehinggamemudahkanpemodelan
matematik/ analisiskwantitatif
Data hutandanketinggiandapatdiprosesdengan
mudah
Data raster kompatibeldengandata masukan
inderajadanalattampilankeluaranseperti
monitor, printer danplotter
Kekurangan
Resolusiditentukanolehukuransel, makin
kecilmakinakuratdanmakinbesardata
Karenasebagianbesardata rujukanberbentuk
vektormakadiperlukankonversidariraster ke
vektot
Hasilcetakdata raster tidaksebaikhasilcetak
data vektor(jigsaw)
Data Raster

Struktur datanya lebih sederhanaStrukturdatanyalebihrumit
Lebih mudah dan efisien dalam
melakukan overlay dan analisis data
Efisien untuk analisis
Mampu menampilkan image dari foto
udara
Sebagai sarana representasi yang baik
Dapat melakukan analisis DTM (Dijital
Terain Model)
Transformasiproyeksilebihefisien
Dapat melakukan simulasiKetelitian, akurat dan lebih presisi
Teknologi yang mudah untuk
dikembangkan
Proses generalisasi dan editing lebih
mudah

Mudah untuk membuat program sendiriRelasi atribut langsung dengan database
Efektifdalammenampilkanbanyakdata
spatial

MODEL DATA VEKTORMODEL DATA VEKTOR MODEL DATA RASTER++

MODEL DATA VEKTORMODEL DATA VEKTOR MODEL DATA RASTER
Tidak efektif dalam penyimpanan fileSulit dan membutuhkan waktu lama
dalam proses overlay

Kualitas tampilan grafis yang terbatasTidak bisa menampilkan data
image/foto udara

Sulit untuk melakukan analisis
keterkaitan
Harga software yang mahal
Begitu banyak tranformasi nonlinearStruktur data yang terlalu banyak
akurasi sangat tergantung dengan
ukuran grid/pixel
Tidak efektif dalam menampilkan
banyak data spatial

--

Types of Geographic Data
GIS
GEOSPASIAL
KARTOGRAFI
PENGIDERAAN
JAUH
GPS
APLIKASI
VECTOR
RASTER
DATABASES
WEB
MULTITEMPORAL
Geodatabases

Differences Between Personal and File Geodatabases
PERSONAL GEODATABASEFILE GEODATABASEASPECT
Supported in older ArcGIS versionsIntroduced in ArcGIS 10.0 and laterSupported ArcGIS Versions
Limited storage capacity (2 GB)Large storage capacity (up to 1 TB)Storage Limit
Supports single-user editing onlySupports single-user editing onlyMulti-User Support
May have slower performanceGenerally offers better performancePerformance
Limited compression capabilitiesEfficient data compressionData Compression
Limited security optionsProvides better security mechanismsSecurity
Does not support attachmentsSupports attachmentsAttachments
Does not support network datasetsSupports network datasetsNetwork Datasets
Does not support versioningDoes not support versioningData Versioning
Stored in a Microsoft Accessdata fileStored as folders in a file systemStorage Type

Types of Geographic Data
GIS
GEOSPASIAL
KARTOGRAFI
PENGIDERAAN
JAUH
GPS
APLIKASI
VECTOR
RASTER
DATABASES
WEB
MULTITEMPORAL
A web mapping service (WMS) consists of
geospatial data hosted through the Internet with
standards set by the Open Geospatial Consortium
(OGC).
WMS enables the exchange of spatial information
and viewing over the web in the form of a map or
image to your web browser.
WEB MAPPING SERVICE
https://gisgeography.com/web-mapping-services-wms/

Web mapping services applications
Creating maps for websites or mobile apps
Visualizing trends of geographic data
Identifying places where businesses are located or where people live
Building digital archives of historic maps
Editing features and attributes
Planning heritage tours around locations on maps
Showing the location of campus buildings or places on campus
Managing event logistics such as parking and transportation
Tracking access points at a venue
Helping viewers see what events are happening near them
Organizing a scavenger hunt or other social contest
Connecting people with organizations in their area of interest

Types of Geographic Data
GIS
GEOSPASIAL
KARTOGRAFI
PENGIDERAAN
JAUH
GPS
APLIKASI
VECTOR
RASTER
DATABASES
WEB
MULTITEMPORAL
WMS, WFS, WCS, WPS, WMTS, WCPS
WMS
WFS
WCS
WPS
WMTS
WCPS
https://gisgeography.com/web-mapping-services-wms/

WEB MAPPING SERVICE (WMS)
A Web Mapping Service (WMS) is the most widely used and most straightforward form for displaying GIS data on the web. It
offers a variety of benefits, including the ability to provide a geospatial view of your GIS data.
A WMS provides data as a visual representation through the internet with basic querying options. A WMS gives basic
zooming, panning and assists organizations to serve GIS data as images with quick rendering speeds.
You should choose a WMS service for any of the following options:
• Render data quickly
• Perform basic querying
• Produce simple maps
• Maintain styles when published
Overall, a WMS allows people to view information about their own geographic locations based on the OGC standards for
WMS
https://gisgeography.com/web-mapping-services-wms/

WEB FEATURE SERVICE
(WFS)
A Web Feature Service (WFS) provides essential tools for businesses and individuals who want to create
interactive maps with a variety of features including search capabilities, filtering, sorting options, and more.
If you want to perform any type of action such as editing data, a WFS gives you access to vector data (not
raster). By using the GetFeaturesrequest, you will be able to retrieve features for advanced features, and much
more.
It's recommended to use a WFS in any of the following circumstances:
• Create, manipulate, and delete features
• Perform advanced querying to retrieve feature information
• View and edit attribute table records
If you want access to the features so you can manipulate them in any way, a WFS is the best way to go. This type
of mapping service follows the OGC standards for WFS
https://gisgeography.com/web-mapping-services-wms/

WEB COVERAGE SERVICE
(WCS)
you can request multidimensional raster data. For instance, you can use it for satellite imagery, aerial photography, elevation
hillshades, or temperature grids.
The term WCS originates from gridded coverages, which refer to any type of raster-based image. Although this type of format is less
common compared to a WMS or WFS, it works well for satellite imagery or any type of raster image.
You'll want to use a WCS in any of the following circumstances.
• Represent multidimensional formats like netCDF, HDF, or GRIB
• Contains multi-year data like temperature data
• Analyzeraster data
The WCS standard is not as common as other web services. But the OGC standards of WCS define the protocol for using it.
https://gisgeography.com/web-mapping-services-wms/

WEB PROCESSING SERVICE
(WPS)
When you want to serve and execute a geoprocessing tool for access across a network, it's the
Web Processing Service (WPS) that defines all the inputs and outputs to perform a GIS
operation.
For example, geoprocessing services can include anything from overlay, proximity, and routing
tools based on the standardized WPS XML schema related to geospatial data.
Here are the following situations you may want to use a Web Processing Service (WPS).
• Perform geospatial analysis for anyone without the proper software
• Accept a standard set of inputs and outputs
• Simplify a spatial operation as a widget in a web map
The OGC standards for the WPS define a protocol for inputs and outputs for geoalgorithms.
https://gisgeography.com/web-mapping-services-wms/

WEB MAP TILE SERVICE (WMTS)
A Web Map Tile Service (WMTS) is a relatively newer standard web service developed in 2010. The idea for this
type of web service is similar to a WMS. But it's a protocol designed for a 2D tiled schema that is 256 x 256 pixels
in size.
One of the benefits of using a WMTS is that it can be pre-rendered on the server-side map tiles at different scales
and cached on the client side. As a result, this results in faster
delivery, less bandwidth, and a better user experience for its quick loading.
You may want to consider using a WMTS in any of the following situations;
Provide optimal speed for viewing cached image tiles
Display large amounts of data over the internet but has limited capability for analysis
Serve base maps with optimal performance
https://gisgeography.com/web-mapping-services-wms/

WEB COVERAGE PROCESSING SERVICE
(WCPS)
was developed in 2008 and is a mix of WCS and WPS. The primary usage of the WCPS standard is for multi-
dimensional coverages such as sensor data, imagery, or statistical analysis.
Although this format has a role in remote sensing imagery, it goes beyond a simple coverage grid (WCS). For
example, you can use a WCPS to calculate Normalized Difference Vegetation Index (NDVI) values from a multi-
spectral satellite.
Even though it's not as popular as the other web service standards, here are some of its users.
• Extract and analyzeserver-side multi-dimensional coverage repositories
• Perform an advanced 4-D climate model with multi-dimensional data
• Provide extra flexibility for preprocessing and data reduction
The OGC WCPS protocol is one of the newer types of web services available but is less useful than other
https://gisgeography.com/web-mapping-services-wms/

WEB COVERAGE PROCESSING SERVICE
(WCPS)
was developed in 2008 and is a mix of WCS and WPS. The primary usage of the WCPS standard is for multi-dimensional
coverages such as sensor data, imagery, or statistical analysis.
Although this format has a role in remote sensing imagery, it goes beyond a simple coverage grid (WCS). For example,
you can use a WCPS to calculate Normalized Difference Vegetation Index (NDVI) values from a multi-spectral satellite.
Even though it's not as popular as the other web service standards, here are some of its users.
• Extract and analyzeserver-side multi-dimensional coverage repositories
• Perform an advanced 4-D climate model with multi-dimensional data
• Provide extra flexibility for preprocessing and data reduction
The OGC WCPS protocol is one of the newer types of web services available but is less useful than other
https://gisgeography.com/web-mapping-services-wms/

characteristics of various web services used in
geospatial applications
EXAMPLE USE CASESDATA TYPE SUPPORTPURPOSEACRONYMSERVICE
Displaying maps with
layers and symbology
Maps, Layers, ImagesServe maps as images for visualizationWMSWeb Mapping Service
Retrieving, querying, and
editing geographic
features
Vector FeaturesServe geospatial features for queryingWFSWeb Feature Service
Accessing and analyzing
raster dataRaster Data
Serve multi-dimensional data (rasters)WCSWeb Coverage Service
Running geospatial
analyses and algorithms
Geoprocessing TasksExecute geospatial processes remotelyWPSWeb Processing Service
Efficiently displaying maps
with cached tiles
Maps, Layers
Serve pre-rendered map tiles for
speed
WMTSWeb Map Tile Service
Advanced analysis and
processing of raster
coverages
Raster Data
Execute complex operations on raster
data
WCPS
Web Coverage
Processing Service

Types of Geographic Data
GIS
GEOSPASIAL
KARTOGRAFI
PENGIDERAAN
JAUH
GPS
APLIKASI
VECTOR
RASTER
DATABASES
WEB
MULTITEMPORAL
Multi-temporal
Space Time Cubes Pattern Multi-temporal data
attaches a time component toinformation.
But multi-temporal geodata not only has a time
component but a geographic component as well.
https://gisgeography.com/what-is-geodata-geospatial-data/

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