A Repeater Antenna System Utilizing Genetically Modified Bacteria for Multiscale Communications

Sezgen, Ozan Furkan; Erden, Oguz Kaan; Hacıosmanoğlu, Nedim; Lacin, Macit Emre; Yalçınkaya, Arda Deniz; Ozdil, Zeliha Cansu Canbek; Şeker, Urartu Özgür Şafak; Dumanlı, Sema

doi:10.23919/eucap53622.2022.9769316

Cited by 5 publications

(2 citation statements)

References 13 publications

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“…Engineered antennae systems have also been designed to facilitate such processes as biodegradation. For example, Sezgen et al [27] have described opportunities for multiscale communications through the engineering of the bacterial antennae systems. Additionally, Chen et al [28] have discussed using bacterial foraging (BF)-based clustering strategies to improve the lifespan of sensor communication networks.…”

Section: Quantum Bacterial Antenna Network and Applicationsmentioning

confidence: 99%

Examining Sound, Light, and Vibrations as Tools to Manage Microbes and Support Holobionts, Ecosystems, and Technologies

Dietert,

Dietert

2024

Microorganisms

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The vast array of interconnected microorganisms across Earth’s ecosystems and within holobionts has been called the “Internet of Microbes.” Bacteria and archaea are masters of energy and information collection, storage, transformation, and dissemination using both “wired” and wireless (at a distance) functions. Specific tools affecting microbial energy and information functions offer effective strategies for managing microbial populations within, between, and beyond holobionts. This narrative review focuses on microbial management using a subset of physical modifiers of microbes: sound and light (as well as related vibrations). These are examined as follows: (1) as tools for managing microbial populations, (2) as tools to support new technologies, (3) as tools for healing humans and other holobionts, and (4) as potential safety dangers for microbial populations and their holobionts. Given microbial sensitivity to sound, light, and vibrations, it is critical that we assign a higher priority to the effects of these physical factors on microbial populations and microbe-laden holobionts. We conclude that specific sound, light, and/or vibrational conditions are significant therapeutic tools that can help support useful microbial populations and help to address the ongoing challenges of holobiont disease. We also caution that inappropriate sound, light, and/or vibration exposure can represent significant hazards that require greater recognition.

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Section: Quantum Bacterial Antenna Network and Applicationsmentioning

confidence: 99%

Examining Sound, Light, and Vibrations as Tools to Manage Microbes and Support Holobionts, Ecosystems, and Technologies

Dietert,

Dietert

2024

Microorganisms

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show abstract

“…Engineered antennae systems have also been designed to facilitate such processes as biodegradation. For example, Sezgen et al [27] have described opportunities for multiscale communications through the engineering of the bacterial antennae systems. Additionally, Chen et al [28] have discussed using the Bacterial Foraging (BF)-based clustering strategies to improve the lifespan of sensor communication networks.…”

Section: Quantum Bacterial Antenna Network and Applicationsmentioning

confidence: 99%

Examining Sound, Light, and Vibrations as Tools to Manage Microbes and Support Holobionts, Ecosystems, and Technologies

Dietert,

Dietert

2024

Preprint

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The vast array of interconnected microbes across earth’s ecosystems and within holobionts has been called the “Internet of Microbes.” Research into the fundamental microbial properties has demonstrated that bacteria and archaea are masters of energy and information collection, storage, transformation, and dissemination using both “wired” and wireless (at a distance) capacities. These features suggest that microbes are quantum entangled within and between earth’s holobionts, and that specific tools affecting energy and information functions could provide an effective strategy for managing microbial populations. Microbes use four critically important microbial networking functions (sound, light, electricity, and magnetism). This narrative review focuses on microbial management based on two of the four: sound and light (as well as related vibrations). These are examined as: 1) tools for managing microbial populations, 2) tools to support new technologies, and 3) tools for healing humans and other holobionts. Given microbial sensitivity to sound, light, and vibrations, it is critical that microbial populations and microbe-laden holobionts are protected from potentially damaging exposures. We conclude that sound, light, and vibrations are useful therapeutic tools that can help support useful microbial populations and help to address ongoing challenges of holobiont disease.

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Antennas Reconfigured by Living Cells: AntennAlive

Erden

Bilir

Karabulut

et al. 2022

2022 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (AP-S/URSI)

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A Repeater Antenna System Utilizing Genetically Modified Bacteria for Multiscale Communications

Cited by 5 publications

References 13 publications

Examining Sound, Light, and Vibrations as Tools to Manage Microbes and Support Holobionts, Ecosystems, and Technologies

Examining Sound, Light, and Vibrations as Tools to Manage Microbes and Support Holobionts, Ecosystems, and Technologies

Examining Sound, Light, and Vibrations as Tools to Manage Microbes and Support Holobionts, Ecosystems, and Technologies

Antennas Reconfigured by Living Cells: AntennAlive

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