Buffalo Niagara Medical Campus (BNMC) to Create Smart Corridor for Main Street
Plan to be developed to integrate smart transportation infrastructure and technology to create an innovative, greener, safer, and more accessible street
Buffalo, N.Y., January 11, 2018 – The Buffalo Niagara Medical Campus, Inc. (BNMC) has received $75,000 in funding to develop an innovative solution for smart transportation infrastructure and technology, on Main Street along the BNMC, in downtown Buffalo. The BNMC project will complement the City of Buffalo’s ongoing Complete Streets initiative.
The project, Creating a Smart Corridor Plan for Main Street in Buffalo, N.Y., will focus on the current conditions, best practices and opportunities for improving energy efficiency, emissions reduction, access and mobility, and traffic safety on a densely populated section of Main Street. The study will result in specific recommendations and anticipated costs for improvements to the City’s central thoroughfare that runs from downtown, northeast to the City’s northern suburbs.
The study, which is being funded by the New York State Energy Research and Development Authority and New York State Department of Transportation, supports Governor Andrew M. Cuomo’s nation-leading energy goal to reduce greenhouse gas emissions 40 percent by 2030.
The study will be conducted at the same time that the City of Buffalo is beginning the design process for a large-scale $13 million streetscape improvement project on Main Street from Goodell Street to Ferry Street, adjacent to the Medical Campus. The BNMC and the City of Buffalo plan to work together to identify opportunities for the implementation of smart transportation infrastructure and technology at the same time. The primary goal of the project will be to create a more innovative streetscape to ensure a greener, safer, more efficient and integrated transportation system for the future.
Main Street in the City of Buffalo, already a densely populated, mixed-use street with a multiple transportation options, has undergone a tremendous amount of new development, particularly near the thriving BNMC. It has been identified as a top priority for reconstruction though multiple planning efforts. As the area grows, there has been increasing interest in updating aging infrastructure, adding traffic calming measures, improving pedestrian and bicycling access and infrastructure, and improving access to the Metro Rail Stations along Main Street.
According to William Smith, Director of Access and Planning for BNMC, “The funding affords us the ability to identify opportunities to improve the street for pedestrians, bicyclists and motorists while at the same time, to plan for the future with new technologies such as sensing technologies, wireless communications, autonomous vehicles, and dynamic and smart parking technologies that can help Buffalo become a model of efficiency, safety, and more sustainable environmental wp-contentroaches.” He added, “The timing is ideal, as we have the opportunity to work with the City of Buffalo as they embark on streetscape improvements that may allow us to integrate our recommendations simultaneously, vastly improving Main Street for all.”
“The Main Street corridor through the Medical Campus area is ripe for infrastructure improvements to compliment the development that continues to transform this area. My administration has led the way in initiating the transformation of Buffalo’s transportation network following the Complete Streets model that accommodates bicycles, pedestrians and motorists in an equitable manner. Working with the BNMC on this grant will afford the opportunity to advance the Complete Streets model with the latest technology,” Mayor Byron W. Brown said.
Work on the Smart Corridor Plan will begin this year and include developing an RFP process to choose a subcontractor who will work with BNMC and the City on smart corridor design considerations, anticipated benefits and associated costs; developing a project steering committee to guide the project, ensure coordination among stakeholders, provide relevant data, insight and information, and to review and comment on project findings; and developing a Smart Corridor recommendations report which will include a review of existing plans, technologies and conditions, an outline of best practices and potential opportunities, and specific recommendations and anticipated costs.
As part of its effort to develop a set of recommendations on design and technology considerations, BNMC expects to focus on elements including wireless communications; sensing technologies; connected and autonomous technologies including connected safety systems; dynamic traffic control and crossing signalization; smart parking technologies; transit technologies including real time data and systems coordination; and renewable energy and energy efficiency wp-contentlications.
In addition to the City of Buffalo, BNMC expects to work with representatives from BNMC member institutions, transportation service providers, utility companies, surrounding neighborhoods, and local and national experts in the field of smart transportation and city planning. The overall project is expected to be completed in 12 months.
About the Buffalo Niagara Medical Campus, Inc.
The Buffalo Niagara Medical Campus, Inc. (BNMC) is a self-sustaining social enterprise successfully combining innovation, job creation, and urban revitalization. It serves as the umbrella organization of the anchor institutions that make up the Buffalo Niagara Medical Campus located within the 120-acre campus bordering Allentown, the Fruit Belt and Downtown. The BNMC Inc. fosters conversation and collaboration among its member institutions, its partners and the community to address critical issues impacting them, including entrepreneurship, energy, access and transportation, workforce and procurement, neighborhoods, and healthy communities, with the goal of increasing economic development and building a strong community. www.bnmc-old.local.
For more information, contact:
Susan Kirkpatrick, BNMC, skirkpatrick@bnmc-old.local
716.866.8002(m)