In 1970, the term "minivan" had yet to be coined, SUVs were primarily used by outdoor surveyors, and a new kind of supercar emerged wearing the unfamiliar badging "GT-R" in Japan. And future car designer Jaebum "JB" Choi was still decades away from being born in Seoul, South Korea. A lot can change in 50 years.

Choi, like many of the graduating seniors at ArtCenter College of Design in Pasadena, Calif., looked to the future for his final thesis – not 50 years, but the year 2050. He selected a vehicle with a rebel soul – the Nissan GT-R – for a design study in a future autonomous era when machines can embody a driver’s emotion through a physical connection.

Choi also was starting an internship at Nissan Design America (NDA) in La Jolla, Calif. at a time when COVID-19 restrictions changed how everyone was thinking about the future. Soon his student thesis took wings, and his vision for the "Nissan GT-R(X) 2050" was born.

The completed project runs just under 10 feet long and sits just over two feet high. The single occupant, the driver, rests horizontally in a "prone" position with limbs extended in an X-shape. The driver wears a futuristic, form-fitting suit and helmet that resembles a superbike riders’ protective helmets and leathers.

As a "wearable machine," Choi envisions that connecting the human brain to the computer’s would provide better performance than ‘ordinary’ self-driving cars. He says the vehicle imitates the shape of the human body so it can efficiently protect the brain.

Choi’s futuristic project still takes cues from the current Nissan GT-R – namely its bold, dramatic surfaces, monolithic body volumes and V-motion design features. It also has iconic GT-R taillights and red-striped accents of the GT-R NISMO.

Another unique element is the GT-R styled helmet and "docking" suit. The helmet was designed to be inserted into a slot for front vision camera shared with VR vision. A brain-to-core transmitter would help the human brain activate digitalized signals.

As a vehicle that would be ‘driven’, most likely at night, maneuverability would be a critical part of its high-power electric performance. Choi imagines the vehicle’s one-piece wheel/tire units as having a shape close to square, allowing the vehicle to turn 360 degrees. The outer tire diameter measures 21 inches and inner wheel circle is 15 inches. The wheels’ spoke pattern was designed to help the wheel cool down fast, even under extreme braking.

The GT-R(X) 2050 also deploys an active wing that would add downforce when extended. The wings fold so the driver can get in and out of the car.

"JB has essentially envisioned a new mode of transportation that people could experience like clothes, "wearable," instead of a traditional vehicle "carriage." It is the kind of breaking-the-mold thinking that has always been encouraged here at NDA. We’ve been honored to help bring JB’s vision to life," concluded Woodhouse.