Dynamic scaling of geospatial data on maps

The invention claimed is: 1. A computer-implemented method, implemented by a computing system, the method comprising: displaying a geographical map overlaid with a first marker layer comprising a first marker of a first type and a second marker layer comprising a second marker of a second type, wherein the geographical map, the first marker layer, and the second marker layer are presented at a first map scale, the first marker is presented at a first marker size, and the second marker is presented at a second marker size; in response to a change of a zoom level of the geographical map to a second map scale: based on whether the second map scale is within a first range from a first low threshold point to a first high threshold point, wherein the first lower threshold point and the first high threshold point correspond to the first marker: determining whether to change a first size of the first marker; and in response to determining to change the first size of the first marker; determining a first extent to which the first size of the first marker is to be changed; and changing the first size of the first marker by the first extent; based on whether the second map scale is within a second range from a second low threshold point to a second high threshold point, wherein the second low threshold point and the second high threshold point correspond to the second marker: determining whether to change a second size of the second marker; and in response to determining to change the second size of the second marker; determining a second extent to which the second size of the second marker is to be changed; and changing the second size of the second marker by the second extent; and overlaying the first marker and the second marker onto the geographical map, the geographical map being displayed at the second map scale. 2. The computer-implemented method of claim 1 , wherein the determination of the extent to which the size of the first marker is to be changed comprises: in response to the second map scale being within the first range from the first low threshold point to the first high threshold point, increasing the size of the first marker as the zoom level is increased. 3. The computer-implemented method of claim 2 , wherein the increase of the size of the first marker is according to a linear, quadratic, or logarithmic relationship with respect to the zoom level, within the first range from the first low threshold point to the first high threshold point. 4. The computer-implemented method of claim 3 , wherein the first low threshold point is greater than a minimum map scale, and wherein the first high threshold point is less than a maximum map scale. 5. The computer-implemented method of claim 2 , wherein the increase of the first size of the first marker is according to a first relationship or a first factor with respect to the zoom level, within the first range from the first low threshold point to the first high threshold, and the determination of the extent to which the second size of the second marker is to be changed comprises: in response to the second map scale being within the second range from the second low threshold point to the second high threshold point, increasing the second size of the second marker as the zoom level is increased according to a second relationship or a second factor. 6. The computer-implemented method of claim 1 , wherein the determination of the extent to which the size of the first marker is to be changed comprises: in response to the second map scale being outside of the first range from the first low threshold point to the first high threshold point, maintaining a constant size of the first marker as the zoom level is increased or decreased. 7. The computer-implemented method of claim 1 , wherein the determination of the extent to which the size of the first marker is to be changed comprises: in response to the second map scale being outside of the first range from the first low threshold point to the first high threshold point, increasing, at a first rate with respect to an increase in the zoom level, a size of the first marker as the zoom level is increased; and in response to the second map scale being within the first range from the first low threshold point to the first high threshold point, increasing, at a second rate with respect to an increase in the zoom level, a size of the first marker as the zoom level is increased, wherein the first rate is smaller than the second rate. 8. The computer-implemented method of claim 1 , wherein the first low threshold point and the first high threshold point are determined based on a density of first markers of the first type. 9. The computer-implemented method of claim 1 , wherein the first low threshold point and the first high threshold point are determined based on a first density of first markers of the first type and a second density of second markers of the second type. 10. The computer-implemented method of claim 1 , wherein the first low threshold point is different from the second low threshold point, and the first high threshold point is different from the second high threshold point. 11. A system comprising: at least one processor; and a memory storing instructions that, when executed by the at least one processor, cause the system to perform a method comprising: displaying a geographical map overlaid with a first marker layer comprising a first marker of a first type and a second marker layer comprising a second marker of a second type, wherein the geographical map, the first marker layer, and the second marker layer are presented at a first map scale, the first marker is presented at a first marker size, and the second marker is presented at a second marker size; in response to a change of a zoom level of the geographical map to a second map scale: based on whether the second map scale is within a first range from a first low threshold point to a first high threshold point, wherein the first lower threshold point and the first high threshold point correspond to the first marker: determining whether to change a first size of the first marker; in response to determining to change the first size of the first marker; determining a first extent to which the first size of the first marker is to be changed; and changing the first size of the first marker by the first extent; based on whether the second map scale is within a second range from a second low threshold point to a second high threshold point, wherein the second low threshold point and the second high threshold point correspond to the second marker: determining whether to change a second size of the second marker; in response to determining to change the second size of the second marker; determining a second extent to which the second size of the second marker is to be changed; and changing the second size of the second marker by the second extent; and overlaying the first marker and the second marker onto the geographical map, the geographical map being displayed at the second map scale. 12. The system of claim 11 , wherein the determination of the extent to which the size of the first marker is to be changed comprises: in response to the second map scale being within the first range from the first low threshold point to the first high threshold point, increasing the size of the first marker as the zoom level is increased. 13. The system of claim 12 , wherein the increase of the size of the first marker is according to a linear, quadratic, or logarithmic relationship with respect to the zoom level, within the first range from the first low threshold point to the first high