Category
Recently Viewed Products
-
AASHTO BSG-2
$84.00$50.40 -
JIS A 1116
$58.00$34.80 -
NSF Chloramine-T (trihydrate) & p-Toluenesulfonamide - 2018
$25.00$15.00 -
AASHTO APH-2
$65.00$39.00 -
AASHTO HDG-4-M
$26.00$15.60
AASHTO GPF-2
$211.00 $126.60
AASHTO Guide for the Planning, Design, and Operation of Pedestrian Facilities, 2nd Edition
Published by | Publication Date | Number of Pages |
AASHTO | 12/01/2021 | 0 |
AASHTO GPF-2 – AASHTO Guide for the Planning, Design, and Operation of Pedestrian Facilities, 2nd Edition
This guide provides guidance on the planning, design, and operation of pedestrian facilities along and across streets and highways. Specifically, the guide focuses on identifying effective measures for accommodating pedestrians on public rights-of-way, as well as describing appropriate methods for accommodating pedestrians, which vary among roadway and facility types. It also recognizes the profound effect that land use planning and site design have on pedestrian mobility. The guide is designed for use by planners, roadway designers, and transportation engineers, at both the state or local level, who make daily decisions that affect pedestrians.
Product Details
- Published:
- 12/01/2021
- File Size:
- 1 file , 23 MB
- Note:
- This product is unavailable in Russia, Belarus
Related products
-
AASHTO TP 140
$78.00$46.80Add to cartProvisional Standard Method of Test for Moisture Sensitivity Using Hydrostatic Pore Pressure to Determine Cohesion and Adhesion Strength of Compacted Asphalt Mixture Specimens
Published by Publication Date Number of Pages AASHTO 2020 9 -
AASHTO TP 143
$89.00$53.40Add to cartStandard Method of Test for Continuous Measurement of Sideway-Force Friction Number for Highway Pavements
Published by Publication Date Number of Pages AASHTO N/A 16 -
AASHTO VLVLR-2
$122.00$73.20Add to cartGuidelines for Geometric Design of Low-Volume Roads, Second Edition
Published by Publication Date Number of Pages AASHTO 2019 101 -
AASHTO TP 99
$97.00$58.20Add to cartStandard Method of Test for Determining the Influence of Road Surfaces on Traffic Noise Using the Continuous Flow Traffic Time-Integrated Method (CTIM)
Published by Publication Date Number of Pages AASHTO 2018 22