A Multilevel Architecture for Autonomous UAVs

  1. Bigazzi, Luca
  2. Basso, Michele
  3. Boni, Enrico
  4. Innocenti, Giacomo
  5. Pieraccini, Massimiliano
  6. González Aguilera, Diego ed. lit. 1
  1. 1 Universidad de Salamanca
    info

    Universidad de Salamanca

    Salamanca, España

    ROR https://ror.org/02f40zc51

Journal:
Drones

ISSN: 2504-446X

Year of publication: 2021

Volume: 5

Issue: 3

Pages: 55

Type: Article

DOI: 10.3390/DRONES5030055 GOOGLE SCHOLAR lock_openOpen access editor

More publications in: Drones

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Metrics

Cited by

  • Web of Science Cited by: 9 (09-09-2023)
  • Dimensions Cited by: 7 (30-03-2023)

JCR (Journal Impact Factor)

  • Year 2021
  • Journal Impact Factor: 5.532
  • Journal Impact Factor without self cites: 4.848
  • Article influence score: 0.89
  • Best Quartile: Q2
  • Area: REMOTE SENSING Quartile: Q2 Rank in area: 10/34 (Ranking edition: SCIE)

SCImago Journal Rank

  • Year 2021
  • SJR Journal Impact: 0.995
  • Best Quartile: Q1
  • Area: Information Systems Quartile: Q1 Rank in area: 82/380
  • Area: Computer Science Applications Quartile: Q1 Rank in area: 171/791
  • Area: Aerospace Engineering Quartile: Q1 Rank in area: 21/140
  • Area: Control and Systems Engineering Quartile: Q1 Rank in area: 66/281
  • Area: Artificial Intelligence Quartile: Q2 Rank in area: 79/286

Scopus CiteScore

  • Year 2021
  • CiteScore of the Journal : 7.2
  • Area: Aerospace Engineering Percentile: 91
  • Area: Computer Science Applications Percentile: 83
  • Area: Information Systems Percentile: 83
  • Area: Control and Systems Engineering Percentile: 82
  • Area: Artificial Intelligence Percentile: 76

Journal Citation Indicator (JCI)

  • Year 2021
  • Journal Citation Indicator (JCI): 0.94
  • Best Quartile: Q2
  • Area: REMOTE SENSING Quartile: Q2 Rank in area: 18/57

Dimensions

(Data updated as of 30-03-2023)
  • Total citations: 7
  • Recent citations: 7
  • Field Citation Ratio (FCR): 5.16

Abstract

In this paper, a multilevel architecture able to interface an on-board computer with a generic UAV flight controller and its radio receiver is proposed. The computer board exploits the same standard communication protocol of UAV flight controllers and can easily access additional data, such as: (i) inertial sensor measurements coming from a multi-sensor board; (ii) global navigation satellite system (GNSS) coordinates; (iii) streaming video from one or more cameras; and (iv) operator commands from the remote control. In specific operating scenarios, the proposed platform is able to act as a “cyber pilot” which replaces the role of a human UAV operator, thus simplifying the development of complex tasks such as those based on computer vision and artificial intelligence (AI) algorithms which are typically employed in autonomous flight operations.

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Bibliographic References

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