Process / pipelineNetwork analysis / travel-time accessibility

Isochrone Analysis

Isochrone analysis computes the area reachable from a location within a given travel time, drawing contour lines — isochrones — that enclose everywhere you can get to in, say, 15, 30, or 45 minutes. It rests on the single-source shortest-path problem solved by Dijkstra's 1959 algorithm: from an origin, the travel time to every node of a routable network is found, thresholded, and converted into a polygon of reachable space. Isochrones turn an abstract travel-time field into an intuitive map of reach, and underpin service-area planning, accessibility measurement, and location analysis.

MethodMind에서 열기곧 제공적용, 비교, 안내 받기

도구 및 자료

슬라이드 다운로드

학습 및 탐색

동영상곧 제공

방법 전문 읽기

회원 전용

무료 계정으로 로그인하면 이 섹션을 읽을 수 있습니다.

로그인

방법 지도

관련 방법들로 이루어진 인접 영역 — 노드를 선택해 살펴보세요.

Isochrone Analysis

Accessibility Analysis Catchment Area Analysis Network Distance Analysis Two-Step Floating Catchm…

출처

Dijkstra, E. W. (1959). A note on two problems in connexion with graphs. Numerische Mathematik, 1(1), 269–271. DOI: 10.1007/BF01386390 ↗

이 페이지 인용 방법

ScholarGate. (2026, June 22). Isochrone Analysis (Travel-Time Contour Computation). ScholarGate. https://scholargate.app/ko/human-geography/isochrone-analysis

어떤 방법일까요?

이 방법을 가장 가까운 동류의 방법들과 나란히 놓고 비교해 보세요 — 라이브러리는 책을 펼쳐 놓을 뿐, 선택은 여러분의 몫입니다.

Accessibility AnalysisHuman Geography↔ 비교
Catchment Area AnalysisHuman Geography↔ 비교
Network Distance AnalysisHuman Geography↔ 비교
Two-Step Floating Catchment AreaHuman Geography↔ 비교

나란히 비교하기 →

이 방법을 참조하는 항목

Catchment Area Analysis Network Distance Analysis Two-Step Floating Catchment Area

유사한 방법

Service Area Analysis Network Distance Analysis Space-Time Network-Based Spatial Analysis 15-Minute City Analysis Catchment Area Analysis Time Geography Analysis Accessibility Analysis Network-Based Spatial Analysis