Access Management Regulations
Access Management Form
How do we improve the safety and capacity of a road system
without expensive widening and purchase of property and people’s homes? One
technique that’s come to the forefront today is access management. Extensive
research and ever-increasing experience show that reducing traffic turmoil by
better control of access significantly reduces accidents and increases capacity.
And what is access management? The Transportation Research Board’s
Access Management Manual defines access management as “the systematic control
of the location, spacing, design, and operation of driveways, median openings,
interchanges, and street connections to a roadway. It also involves roadway
design applications, such as median treatments and auxiliary lanes, and the
appropriate spacing of traffic signals.”
There are many reasons why access management is vital. It extends the life
of roads and streets and protects the public’s investment in its system. When
development occurs along a road and driveways begin to proliferate, capacity and
safety decrease drastically. The accident rate of a four-lane road like
Colerain Avenue
with all its driveways is 4 to 6 times the rate of a similar road where access
is managed. And managing access on a four-lane road is equivalent to adding two
more lanes of capacity, and at a cost far less than that required to add lanes.
Even if one weren’t concerned about maintaining existing roads and streets,
the likelihood of obtaining large sums of money to widen and/or replace existing
roads is decreasing as transportation infrastructure needs and costs continue to
outpace available funding.
Figures 1 and 2 illustrate why access points contribute to congestion and
accidents. They are called conflict diagrams; they show all of the conflicts
that occur at an intersection where the paths of vehicles moving through cross,
merge with or diverge from one another. At a typical 4-way intersection (Figure
1), there are 32 conflict points, 16 of which are the crossing type where one
vehicle could impact the side of another. For a 4-way intersection on a 4-lane
road, add 8 more crossing-type conflict points for a total of 40.
A tee intersection where a drive or side street is on only one side
(Figure2) has 9 conflict points, and 11 when the main street is 4-laned. Five of
the 11 are crossing-type conflicts.
When traveling on a road like
Colerain Avenue
with more than 60 access points per mile, each driver is challenged by
approximately 1,000 conflict points per mile of travel. This condition results
in considerable congestion and delay as drivers maneuver to avoid the conflict
points and a considerable number of accidents when drivers fail to avoid them.
It results in turbulence and friction which in turn raise driver tension, and
when driver tension is increased, the potential for tip-over into road rage is
increased as well.
Figures 3 and 4 illustrate the conflict points at the 4-way
and tee intersections when these access points become right-in/right-out. The
reductions are dramatic and result in significantly improved traffic flow
resulting in markedly reduced congestion and accidents. And, in a more general
way, they illustrate why the development of standards and policies establishing
access management are very important if the integrity and safety of our road
system are to be maintained.
Colerain Avenue
is currently undergoing a retrofit improvement project to address the
congestion and safety problems that have grown over the last 40 years as
development occurred without access management. While some similar development
has also occurred on the county road system, there is a much greater opportunity
to avoid many of the congestion and safety problems by planning ahead. The
Hamilton County Engineer’s Office is doing just that.
Developing Access Management Regulations
The Hamilton County Engineer’s Office worked with an
Access Management Advisory Group to create standards, policies and procedures
for access management regulations. The regulations will cover the
Hamilton
County
road system and some township roads.
The process began in October 2003, when the
County
Commissioners
adopted a resolution proposing the consideration of access management
regulations. This was followed by solicitation of potential members to serve on
the Advisory Committee and a formal opening public workshop in early December.
Shortly after the public workshop, the County Commissioners appointed
Advisory Committee members including registered surveyors, representatives of
the homebuilding industry, licensed realtors, representatives of the Hamilton
County Regional Planning Commission, professional engineers with traffic
expertise, a representative of the OKI Regional Council of Government, several
township trustees, a member of the Board of County Commissioners, and the
Hamilton County Engineer and representatives of his office.
The committee, which had 27 members, represents the many
areas and fields of endeavor with an interest in access management, and the many
different viewpoints assure that proposals are evaluated and discussed. Niehaus
Transportation Engineering served as consultant to the committee.
The committee met every other week. The
regulations were developed for each of six categories of roads on the existing
Hamilton County Thoroughfare System. These categories include the following
(with examples):
· Expressways:
Five Mile Road
(portion),
Reed Hartman Highway
·
Major Arterials: North Bend Road
,
Winton Road
,
Kenwood Road
· Minor
Arterials: Cheviot Road
,
Compton
Road,
Eight Mile Road
·
Major Collectors: West Fork Road
,
Daly Road
,
Drake Road
· Minor Collectors: Reserved for selected township roads
& streets
· Local Roads: Primarily serving abutting properties
Also determined at this time are access connection definitions (roads
& streets, drives, etc.); access classification definitions, ranging from
minimum-volume drives up to high-volume drives and streets; minimum signal
spacing; minimum road or street spacing; minimum full-access driveway spacing;
right-in/right-out requirements; corner spacing; left-turn lane and right-turn
lane requirements; and lateral access restrictions. All of the requirements will
be shown on matrices, one for each functional classification, as supplemented by
text material.
Hamilton
County Engineer
