Thermal Energy Feedback Regulation of Human Life System Based on Photon Radiation
DOI:
https://doi.org/10.13052/spee1048-5236.4112Keywords:
Photon radiation, human life system, energy feedback, regula- tion mechanism.Abstract
To solve the problem of the long execution time of the traditional thermal
energy feedback regulation mechanism of human life system, a method of
analyzing the thermal energy feedback regulation mechanism of human life
system based on photonic radiation was proposed. The energy response
entropy of human living system is calculated by analyzing the change of
human living system’s thermal energy. The photonic counter is designed
by using photonic radiation technology to extract the weak optical signal of
thermal energy of the system and output energy accumulation. The quadratic
programming algorithm is used to solve the optimal solution of thermal
energy, and the neural network model is combined with the energy accu-
mulation of photon counter to realize the thermal feedback regulation. So far,
the design of energy feedback regulation mechanism of human living system
has been completed. The experimental results show that compared withthe traditional feedback control mechanism, the designed energy feedback
control mechanism based on photonic radiation has a shorter implementation
time and is suitable for practical engineering.
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References
Jahangiri P, Pournazari K and Torigian DA, et al. (2019) A prospective
study of the feasibility of FDG-PET/CT imaging to quantify radiation-
induced lung inflammation in locally advanced non-small cell lung can-
cer patients receiving proton or photon radiotherapy. European Journal
of Nuclear Medicine and Molecular Imaging 46(1): 206–216.
Devine CA, Liu KX and Myrsini II, et al. (2019) Brainstem injury
in pediatric patients receiving posterior fossa photon radiation. Inter-
national journal of radiation oncology, biology, physics 105(5):
–1042.
Toker O, Caglar M Oz E et al. (2019) Radiation interaction parameters
for blood samples of breast cancer patients: an MCNP study. Radiation
and environmental biophysics 58(4): 531–537.
Chen B, Wan JY. (2019) Study on Anti – Sepsis Role Traditional Chi-
nese Medicines of Heat Clearing and Detoxicating by Targetting Bal-
ance Regualtion of Interleukin Receptor – Associatd Kinases. Chinese
Archives of Traditional Chinese Medicine 37(03): 539–541.
Rayouf Z, Ghorbel C and Braiek NB (2019) A new hammerstein
model control strategy: feedback stabilization and stability analysis.
International Journal of Dynamics and Control 7(4): 1453–1461.
Tanoue Y, Fujino T and Hideki T, et al. (2019) Jarvik 2000 axial flow
ventricular assist device in right single ventricle after Fontan operation.
Journal of Artificial Organs 22(4): 338–340.
Thermal Energy Feedback Regulation of Human Life System 57
Tarighat AP and Yargholi M (2019) Low power active shunt feedback
CMOS low noise amplifier for wideband wireless systems. Integration
: 189–197.
Kim JC and Iremonger KJ (2019) Temporally tuned corticosteroid
feedback regulation of the stress axis. Trends in Endocrinology &
Metabolism 30(11): 783–792.
Sasaki M (2017) Photon-fluence-weighted let for radiation fields sub-
jected to epidemiological studies. Health physics 113(2): 143–148.
Howe EE, Toth AJ and Bent LR (2018) Online visual cues can com-
pensate for deficits in cutaneous feedback from the dorsal ankle joint
for the trailing limb but not the leading limb during obstacle crossing.
Experimental Brain Research 236(11): 2887–2898.
Baseer N, Mahboob U and Degnan J (2018) Sharpening the feedback
skills of doctoral supervisors. Medical Education 52(11): 1207–1208.
Stanick CF, Halko HM, Dorsey CN, et al. (2018) Operationalizing
the ’pragmatic’ measures construct using a stakeholder feedback and
a multi-method approach. BMC Health Services Research 18(1): 882.
Tripathy M, Joshi H and Panda SK (2017) Energy payback time and life-
cycle cost analysis of building integrated photovoltaic thermal system
influenced by adverse effect of shadow. Applied Energy 208: 376–389.
Simone A, Efisio C, Jaume G, et al. (2018) Numerical analysis of a
latent heat thermal energy storage system under partial load operating
conditions. Renewable Energy 128: 350–361.
Ismael G (2017) Gyrfalcons Falco rusticolus adjust CTNS expression
to food abundance: a possible contribution to cysteine homeostasis.
Oecologia 184(4): 779–785.
Gombert P, Gueye A, Ha ̈ıke HB, et al. (2019) Installation of a thermal
energy storage site in an abandoned mine in Picardy (France). part 1:
selection criteria and equipment of the experimental site. Environmental
Earth Sciences 78(5): 1–16.
Singh DK, Suresh S, Singh H, et al. (2017) Anantharaman. myo-inositol
based nano-PCM for solar thermal energy storage. Applied Thermal
Engineering 110: 564–572.
Melissa C, Kilby PC, Molenaar M, Slobounov SM, et al. (2017)
Real-time visual feedback of COM and COP motion properties differen-
tially modifies postural control structures. Experimental Brain Research
(1): 109–120.
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