MITTELMAN ASSOCIATES
was started by Michael A Mittelman, RIBA in 1999 with the specific intention to focus on bespoke architectural and interior design commissions in the field of leisure, residential and special design projects. The practice prides itself on unique design solutions tailored to its clients’ requirements.
Michael Mittelman was born in America and took up residency in London in 1979. In 1982 Michael successfully completed a post-graduate course at the London Architectural Association resulting in his Chartered Membership of the Royal Institute of British Architects. Michael started his own firm in 1984, which he developed into a 25-strong practice trading as MCH. In 1999 Michael decided to revert back to being an architect / designer and not an administrator, relinquished his Directorship in order to pursue his passion for design and consequently founded the current practice of MITTELMAN ASSOCIATES; purposely being kept small to allow personal attention to all projects.
MITTELMAN ASSOCIATES has worked closely with high quality leisure / health club operators and private residential clients. He has been instrumental in the introduction of stainless steel swimming pools to the UK which is now recognised as the ultimate design solution. Recently MITTELMAN ASSOCIATES worked with the John Whitgift Trust designing a new sports and conference complex for the Whitgift School, Croydon. Michael and his family are residents of Dulwich Village where his practice is also located.
The size of MITTELMAN ASSOCIATES gives Michael the opportunity to apply his considerable experience and design skills to private residential commissions, allowing all projects to receive his direct attention. All projects are designed jointly with the flair of Gerson Magoga who has worked for Michael for over ten years. Many of his commissions require the sensitive blending of modern solutions within an historic context. It is the aim of MITTELMAN ASSOCIATES to promote unique design solutions, which are both real and respectful of budget and time constraints.