The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
The computation team at KPF is often asked to develop and compare a range of design options. Using RhinoScript, I developed several different secondary beam systems addressing concerns about dimensions, material usage, geometric complexity, and appearance. These were then compared with a series of identical renderings. These solutions were developed as an alternative to Onur Gun's Grasshopper model of the same project.
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Secondary Structure