Remote three-dimensional printing of polymer structures using drones

Dams, Barrie; Sareh, Sina; Zhang, Ketao; Shepherd, Paul; Kovač, Mirko; Ball, Richard

doi:10.1680/jcoma.17.00013

Cited by 14 publications

(7 citation statements)

References 13 publications

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“…The system known as Aerial Additive Building Manufacturing (Dams et al, 2017) consisting of small-scale construction robots in the form of flying swarms will deliver constructions for a variety of situations, e.g., in post-disaster scenarios 3 . Such a strategy requires advanced sensing and direct cooperation between swarm units, e.g., drones, that are capable to cooperatively behave on-site.…”

Section: Robotic Swarmsmentioning

confidence: 99%

Large-Scale Urban Prototyping for Responsive Cities: A Conceptual Framework

Bus

2019

Front. Digit. Humanit.

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Despite ubiquitous urbanization and worldwide standardization, there is a lack of better differentiation between cities toward more customized environments. Although current advancements in computational design and digital fabrication technologies have been successfully applied in various architectural scales, they have rarely, if ever, been implemented in a larger urban context that can lead to broader benefit and responses for citizens. This research aims to describe the potential of digital fabrication methods for large-scale urban applications that can subsequently lead to more diverse and unique urban environments. This paper summarizes state-of-the-art principles for large-scale building construction that have been implemented in the past, along with current research and practice, and outlines a conceptual framework for possible future directions for large quantities of automatic and bespoke construction deliveries for future customized urban scenarios. This article also outlines the effects of end-users' participation on urban developments using online users' interface to inform building processes. To address aspects of end-users' engagement in customization of cities, the article elaborates the question of responsiveness, where the citizen actively interacts with the environment and building technology and vice versa in order to customize the urban space. This is theoretically and conceptually explained and illustrated in a case study related to the formerly industrial harbor area of Tanjong Pagar in the city of Singapore, which is a test-bed for new urban developments on 325 ha of waterfront land in the downtown port area within the context of a tropical city.

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Section: Robotic Swarmsmentioning

confidence: 99%

Large-Scale Urban Prototyping for Responsive Cities: A Conceptual Framework

Bus

2019

Front. Digit. Humanit.

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“…Aerial inspections are conducted via drones [62]. To conduct aerial operations different anchoring and perching methods [63], mobile polymer repair systems [64] as well as multiple flying morphologies [65] that could allow a drone to also perform an underwater inspection [66] were developed. Underwater inspection comes from a range of different AUV's such as the Falcon [67] and BlueROV2 [68].…”

Section: Offshore Energy Case Studymentioning

confidence: 99%

The Future Workplace: A Symbiotic System of Systems Environment

McConnell¹,

Mitchell²,

Donaldson³

et al. 2021

Cyber-Physical Systems

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“…Due to the large spread of the deposited material, this approach was not able to print 3D objects with distinct shapes. Recent work by [15] investigated different materials that could be used for a similar depositing setup as [14]. Though the authors identify suitable materials for different applications, the depositing apparatus still suffers from the same limitations as [14].…”

Section: Related Workmentioning

confidence: 99%

A 3D Printing Hexacopter: Design and Demonstration

Nettekoven,

Topcu

2021

Preprint

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3D printing using robots has garnered significant interest in manufacturing and construction in recent years. A robot's versatility paired with the design freedom of 3D printing offers promising opportunities for how parts and structures are built in the future. However, 3D printed objects are still limited in size and location due to a lack of vertical mobility of ground robots. These limitations severely restrict the potential of the 3D printing process. To overcome these limitations, we develop a hexacopter testbed that can print via fused deposition modeling during flight. We discuss the design of this testbed and develop a simple control strategy for initial print tests. By successfully performing these initial print tests, we demonstrate the feasibility of this approach and lay the groundwork for printing 3D parts and structures with drones.

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Remote three-dimensional printing of polymer structures using drones

Cited by 14 publications

References 13 publications

Large-Scale Urban Prototyping for Responsive Cities: A Conceptual Framework

Large-Scale Urban Prototyping for Responsive Cities: A Conceptual Framework

The Future Workplace: A Symbiotic System of Systems Environment

A 3D Printing Hexacopter: Design and Demonstration

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