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Coeficiente de utilización del suelo edificado

Title
Coeficiente de utilización del suelo edificado
Abstract

Para detectar suelo con alto potencial constructivo se definió el suelo conectado con bajo coeficiente de utilización del suelo Conectividad/CUS. El uso de este indicador intermedio señala el potencial que hay en función de la cercanía a la red de transporte bajo la premisa de que, sin considerar las restricciones ambientales, de riesgo y urbanísticos, a mayor conectividad exista en una colonia, mayor utilización del suelo se espera.

Date de publicación
Keywords
LE 05 Movilidad Sustentable y Accesibilidad Urbana
Category
Utilidades de Comunicacion
energía, agua y sistemas de residuos y la infraestructura de comunicaciones y servicios. Ejemplos: hidroeléctrica, geotérmica, solar y de fuentes nucleares de energía, depuración y distribución de agua, de alcantarillado y eliminación, electricidad y distribución de gas, la comunicación de datos, telecomunicaciones, radio, redes de comunicación
Catalogado por
Paulina Paredes
More info
-
Language
English
Supplemental Information

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/** @global * Flag variable to control drill functionality. * Such feature is in infoDrill.js file */ var isDrillActive = false; /** * Transform json data into CSV string * @param {Object} jsonData - The JSON data, with key-value pairs * @return {string} The CSV representation. */ function convertToCSV(jsonData) { var csvData = []; csvData.push('Atributo,Valor'); for (var key in jsonData.properties) { var value = jsonData.properties[key]; if (value === null) { value = ''; } else { value = value.toString().replace(/"/g, '""'); } csvData.push('"' + key + '","' + value + '"'); } return csvData.join('\n'); } L.TileLayer.BetterWMST = L.TimeDimension.Layer.WMS.extend({ defaultWmsParams: { service: 'WMS', request: 'GetMap', // @option layers: String = '' // **(required)** Comma-separated list of WMS layers to show. layers: '', // @option styles: String = '' // Comma-separated list of WMS styles. styles: '', // @option format: String = 'image/jpeg' // WMS image format (use `'image/png'` for layers with transparency). format: 'image/jpeg', // @option transparent: Boolean = false // If `true`, the WMS service will return images with transparency. transparent: false, // @option version: String = '1.1.1' // Version of the WMS service to use version: '1.1.1' }, options: { // @option crs: CRS = null // Coordinate Reference System to use for the WMS requests, defaults to // map CRS. Don't change this if you're not sure what it means. crs: null, // @option uppercase: Boolean = false // If `true`, WMS request parameter keys will be uppercase. uppercase: false, detectRetina: false, control: null }, initialize: function(layer, options) { L.TimeDimension.Layer.WMS.prototype.initialize.call(this, layer, options); this._url = options.url; const wmsParams = L.Util.extend({}, this.defaultWmsParams); // all keys that are not TileLayer options go to WMS params for (const i in options) { if (!(i in this.options)) { wmsParams[i] = options[i]; } } options = L.Util.setOptions(this, options); const realRetina = 1; const tileSize = this.getTileSize(); wmsParams.width = tileSize.x * realRetina; wmsParams.height = tileSize.y * realRetina; wmsParams.layers = options.layers this.wmsTime = [] this.wmsParams = wmsParams; this.timeLayerControl = L.control.timeDimension(this.options.mapt,{ position: "topright", autoPlay: false, timeSlider: false, loopButton: true, playerOptions: { transitionTime: 125, loop: true, } }); }, getTileSize: function() { const s = 256; return s instanceof L.Point ? s : new L.Point(s, s); }, onAdd: function (map) { console.log("onAdd log", this) L.TimeDimension.Layer.WMS.prototype.onAdd.call(this, map); map.on('click', this.getFeatureInfo, this); // map.addControl(this.timeLayerControl) }, onRemove: function (map) { // Triggered when the layer is removed from a map. // Unregister a click listener, then do all the upstream WMS things L.TimeDimension.Layer.WMS.prototype.onRemove.call(this, map); map.off('click', this.getFeatureInfo, this); // map.removeControl(this.timeLayerControl) this.timeLayerControl = null }, _showLayer: function(layer, time) { if (this._currentLayer && this._currentLayer !== layer) { this._currentLayer.hide(); } layer.show(); if (this._currentLayer && this._currentLayer === layer) { return; } this._currentLayer = layer; this._currentTime = time; console.log('Show layer ' + layer.wmsParams.layers + ' with time: ' + new Date(time).toISOString()); }, _update: function(){ L.TimeDimension.Layer.WMS.prototype._update.call(this); }, getFeatureInfo: function (evt) { // Make an AJAX request to the server and hope for the best if (isDrillActive) { return null } var url = this.getFeatureInfoUrl(evt.latlng), showResults = L.Util.bind(this.showGetFeatureInfo, this); var layername = this.wmsParams.layers; showResults(evt.latlng, layername, url); }, getFeatureInfoUrl: function (latlng) { // Construct a GetFeatureInfo request URL given a point console.log("url",this.wmsParams.format) var point = this._map.latLngToContainerPoint(latlng, this._map.getZoom()), size = this._map.getSize(), params = { request: 'GetFeatureInfo', service: 'WMS', srs: 'EPSG:4326', styles: this.wmsParams.styles, transparent: this.wmsParams.transparent, version: this.wmsParams.version, format: this.wmsParams.format, bbox: this._map.getBounds().toBBoxString(), height: size.y, width: size.x, layers: this.wmsParams.layers, query_layers: this.wmsParams.layers, info_format: 'application/json', time : 'P1000Y/PRESENT' }; params[params.version === '1.3.0' ? 'i' : 'x'] = Math.round(point.x); params[params.version === '1.3.0' ? 'j' : 'y'] = Math.round(point.y); // Possible FIXME: Let backend to determine origin url = this._url + L.Util.getParamString(params, this._url, true); console.log("Formed url: "+url) return url }, showGetFeatureInfo: function (latlng, layername, url) { var pcontent = ""; var e = this; $.ajax({ url: '/interactive/get_featureinfo', type: 'POST', data: {'layername':layername, 'url': url, csrfmiddlewaretoken: 'pOOWzL8dkKZlzNBOW59WMOyMPDEumhiz' }, dataType: 'json', success: function(data) { console.warn(data); var jdata = data.properties; var desc = data.attr_desc; pcontent += '' if(!jQuery.isEmptyObject(desc)){ // if (census.getConstants()) { // $.each(jdata, function(key, value){ // if(value==null){ // value=''; // } // if(!isNaN(value)){ // if(value.toString().indexOf('.') != -1){ // var arr = value.toString().split('.'); // var trunc = arr[1].substring(0, 2); // pcontent += ''; // } else{ // pcontent += ''; // } // } else { // pcontent += ''; // } // }); // var container = $('
'); // container.on('click', 'div.click-census-analysis', function() { // if (typeof($(".layer-selected").attr('id')) != "undefined") { // var swt_id = $(".layer-selected").attr('id').slice(1); // var lay_id = $("#"+swt_id).attr('data-regid'); // if (typeof(lay_id) != "undefined") { // census.getResultsCensus(jdata,lay_id); // } // } // }); // pcontent += '
'; // pcontent += '
AtributoValor
'+desc[key]+''+arr[0]+'.'+trunc+'
'+desc[key]+''+value+'
'+desc[key]+''+value+'
Analisis para el objeto seleccionado
'; // container.html(pcontent); // L.popup() // .setLatLng(latlng) // .setContent(container[0], customOptions) // .openOn(e._map); // }else{ $.each(jdata, function(key, value){ if(value==null){ value=''; } if(!isNaN(value)){ if(value.toString().indexOf('.') != -1){ var arr = value.toString().split('.'); var trunc = arr[1].substring(0, 2); pcontent += ''+desc[key]+''+arr[0]+'.'+trunc+''; } else{ pcontent += ''+desc[key]+''+value+''; } } else { pcontent += ''+desc[key]+''+value+''; } }); pcontent += '' // Add the download button to the popup content var csvData = convertToCSV(data); var downloadButton = 'Download CSV'; pcontent += downloadButton; L.popup() .setLatLng(latlng) .setContent(pcontent) .openOn(e._map); // } } else{ $.each(jdata, function(key, value){ //pcontent += '
'+key+' = '+value+'
'; pcontent += ''+key+''+value+''; }); pcontent += '' L.popup() .setLatLng(latlng) .setContent(pcontent) .openOn(e._map); } }, error: function() { console.log('There is an error in the response'); } }); } }); L.tileLayer.betterWmsTime = function (url, options) { return new L.TileLayer.BetterWMST(url, options); }; // BETTERWMS CON MEJORAS DE BUSQUEDA // function addLayerSearch(currentHref, typename){ // var url = currentHref.replace("wms","wfs"); // var params = { // 'service': 'wfs', // 'request': 'GetFeature', // 'version': '2.0.0', // 'typeNames': typename, // 'format': 'application/json', // 'info_format' : 'application/json', // 'outputFormat': 'application/json' // } // url = url + L.Util.getParamString(params, url, params.uppercase); // $.ajax({ // url: url, // type: 'GET', // success: function(data){ // searchLayer = L.geoJSON(data,{pointToLayer: function(){}}).addTo(map) // searchControl = new L.Control.Search({ // layer: searchLayer, // marker: true, // propertyName:'radio', // moveToLocation: function(latlng, title, map) { // //map.fitBounds( latlng.layer.getBounds() ); // var zoom = map.getBoundsZoom(latlng.layer.getBounds()); // map.setView(latlng, zoom); // access the zoom // } // }) // } // }) // } L.TileLayer.BetterWMS = L.TileLayer.WMS.extend({ initialize(url, options) { L.TileLayer.WMS.prototype.initialize.call(this,url, options); this.wmsParams = L.Util.extend({ time : 'P1000Y/PRESENT' }, this.wmsParams); this.searchLayer = null; this.searchData = null this.searchControl = null; this.mapt = this.options.mapt this.layerGroupWms = new L.LayerGroup(); }, _getGeojsonLayer: function(){ var e = this var url = this._url.replace("wms","wfs"); let protocol = window.location.protocol; if (protocol.includes("https") && !url.includes("https")) { url = url.replace("http", "https"); } var params = { 'service': 'wfs', 'request': 'GetFeature', 'version': '2.0.0', 'typeNames': this.wmsParams.layers, 'format': 'application/json', 'info_format' : 'application/json', 'outputFormat': 'application/json' } url = url + L.Util.getParamString(params, url, params.uppercase); console.log("geojson wfs url", url); $.ajax({ url: url, type: 'GET', success: function(data){ e.searchData = data console.log("success geojson data", data); }, complete: function(){ e.searchLayer = L.geoJSON(e.searchData,{ pointToLayer: function(geoJsonPoint, latlng) { return L.marker(latlng,{ "opacity": 0 }); } }) console.log("searchLayer", e.searchLayer) e.layerGroupWms.addLayer(e.searchLayer) var layername = e.wmsParams.layers.replace("geonode:",""); e.searchControl = new L.Control.Search({ marker: false, layer: e.layerGroupWms, textPlaceholder: layername, autoType: false, position: 'topright', propertyName: e.options.attributeSearch, minLength: 0, moveToLocation: function(latlng, title, map) { console.log(latlng,title,map) map.setView(latlng, 16); // access the zoom }, filterData: function(text, records){ const frecords = {}; text = text.replace(new RegExp('[.*+?^${}()|[\]\\]','g'), '') // sanitize remove all special characters if (text === '' || !text) { console.log("No text", records); return records; } const regSearch = new RegExp(text, 'i'); for (const key in records) { if (regSearch.test(key)) { frecords[key] = records[key]; } } console.log(text,frecords); return frecords; } }).addTo(e.mapt) // Change the id of the created input (searchtext{lenght of placeholder}) $(`#searchtext${layername.length}`).attr("id", `searchtext-${layername}`); }, error: function(error) { console.error("Failure on search (geojson)", error); } }) }, _update: function(){ L.TileLayer.WMS.prototype._update.call(this); // map.addControl(this.controlSearch) }, onAdd: function (map) { // Triggered when the layer is added to a map. // Register a click listener, then do all the upstream WMS things L.TileLayer.WMS.prototype.onAdd.call(this, map); map.on('click', this.getFeatureInfo, this); // this.searchControl.addTo(map) if( this.options.attributeSearch != "" && this.options.attributeSearch.length >= 1){ this._getGeojsonLayer() this.layerGroupWms.addTo(map); } }, onRemove: function (map) { // Triggered when the layer is removed from a map. // Unregister a click listener, then do all the upstream WMS things L.TileLayer.WMS.prototype.onRemove.call(this, map); map.off('click', this.getFeatureInfo, this); if(map.hasLayer(this.layerGroupWms)){ map.removeLayer(this.layerGroupWms) map.removeControl(this.searchControl) } }, getFeatureInfo: function (evt) { console.log(evt) // Make an AJAX request to the server and hope for the best if (isDrillActive) { return null } var url = this.getFeatureInfoUrl(evt.latlng), showResults = L.Util.bind(this.showGetFeatureInfo, this); var layername = this.wmsParams.layers; showResults(evt.latlng, layername, url); }, getFeatureInfoUrl: function (latlng) { // Construct a GetFeatureInfo request URL given a point console.log("url",this.wmsParams.format) var point = this._map.latLngToContainerPoint(latlng, this._map.getZoom()), size = this._map.getSize(), params = { request: 'GetFeatureInfo', service: 'WMS', srs: 'EPSG:4326', styles: this.wmsParams.styles, transparent: this.wmsParams.transparent, version: this.wmsParams.version, format: this.wmsParams.format, bbox: this._map.getBounds().toBBoxString(), height: size.y, width: size.x, layers: this.wmsParams.layers, query_layers: this.wmsParams.layers, info_format: 'application/json', time : 'P1000Y/PRESENT' }; params[params.version === '1.3.0' ? 'i' : 'x'] = Math.round(point.x); params[params.version === '1.3.0' ? 'j' : 'y'] = Math.round(point.y); url = this._url + L.Util.getParamString(params, this._url, true); // Possible FIXME: Let backend to determine origin console.log("Formed url: "+url) return url }, showGetFeatureInfo: function (latlng, layername, url) { var pcontent = ""; var e = this; $.ajax({ url: '/interactive/get_featureinfo', type: 'POST', data: {'layername':layername, 'url': url, csrfmiddlewaretoken: 'pOOWzL8dkKZlzNBOW59WMOyMPDEumhiz' }, dataType: 'json', success: function(data) { console.log(data); var jdata = data.properties; var desc = data.attr_desc; pcontent += '' if(!jQuery.isEmptyObject(desc)){ // if (census.getConstants()) { // $.each(jdata, function(key, value){ // if(value==null){ // value=''; // } // if(!isNaN(value)){ // if(value.toString().indexOf('.') != -1){ // var arr = value.toString().split('.'); // var trunc = arr[1].substring(0, 2); // pcontent += ''; // } else{ // pcontent += ''; // } // } else { // pcontent += ''; // } // }); // var container = $('
'); // container.on('click', 'div.click-census-analysis', function() { // if (typeof($(".layer-selected").attr('id')) != "undefined") { // var swt_id = $(".layer-selected").attr('id').slice(1); // var lay_id = $("#"+swt_id).attr('data-regid'); // if (typeof(lay_id) != "undefined") { // census.getResultsCensus(jdata,lay_id); // } // } // }); // pcontent += '
'; // pcontent += '
AtributoValor
'+desc[key]+''+arr[0]+'.'+trunc+'
'+desc[key]+''+value+'
'+desc[key]+''+value+'
Analisis para el objeto seleccionado
'; // container.html(pcontent); // L.popup() // .setLatLng(latlng) // .setContent(container[0], customOptions) // .openOn(e._map); // }else{ $.each(jdata, function(key, value){ if(value==null){ value=''; } if(!isNaN(value)){ if(value.toString().indexOf('.') != -1){ var arr = value.toString().split('.'); var trunc = arr[1].substring(0, 2); pcontent += ''+desc[key]+''+arr[0]+'.'+trunc+''; } else{ pcontent += ''+desc[key]+''+value+''; } } else { pcontent += ''+desc[key]+''+value+''; } }); pcontent += '' // Add the download button to the popup content var csvData = convertToCSV(data); var downloadButton = 'Download CSV'; pcontent += downloadButton; L.popup() .setLatLng(latlng) .setContent(pcontent) .openOn(e._map); // } } else{ $.each(jdata, function(key, value){ //pcontent += '
'+key+' = '+value+'
'; pcontent += ''+key+''+value+''; }); pcontent += '' L.popup() .setLatLng(latlng) .setContent(pcontent) .openOn(e._map); } }, error: function() { console.log('There is an error in the response'); } }); } }); L.tileLayer.betterWms = function (url, options) { return new L.TileLayer.BetterWMS(url, options); };