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[8] Ammar Ibrahim El Sayed, Mahmoud Abdelaziz, Mohamed Helmy Megahed, Mohamed Hassan Abdel Azeem, "A New Supervision Strategy based on Blockchain for Electronic Health Records", Electrical Engineering (ICEENG) 2020 12th International Conference on, pp. 151-156, 2020
[13] S.Marceglia et al., “A Standards-Based Architecture Proposal for Integrating Patient mHealth Apps to Electronic Health Record Systems” Applied Clinical Informatics, vol. 6, no. 3, 2015, pp. 488–505

Parameters Metals ' 0σ (MPa), [12] Kd (MPa-mm1/2) tK 0σ (MPa) h (nm), [13] Hm (KJ-mol-1) Aluminium, Al 16.7 1301.77 1.30 15.40 0.250 10.71 Copper, Cu 33 4277.39 2.85 30.15 0.270 13.26 Table 1: Parameters used during analysis Fig.2, Fig.3 and Fig.4 show that both the mean grain size, E(d), and grain size dispersion, CV(d), together play vital roles in the design of the required materials properties, σ. 0 200 400 600 800 1000 1200 50 100 150 200 250 300 0.0 0.5 1.0 σ [MPa] E(d)[nm] CV(d) Copper 0 100 200 300 50 100 150 200 250 300 0.0 0.5 1.0 σ [MPa] E(d)[nm] CV(d) Aluminium Fig.2.
[11] E.L.

(a) driving part (b) boom part Fig. 1 Symbols of loads and dimensions for a movable crane Referring to Fig. 1(b), the equilibrium condition for moment on the basis of point O is found to be: ( ) ( ) 0cosWLLWLWL cossincossinFL:M B 6 1i E6O TCOTC iOi C P P C CP =      +++ − − ∑ ∑ = θ θθθθ (1) Where, Bθ : luffing angle of boom for a horizontal axis Pθ : angle of OP for a horizontal axis ; ( )POPO 1 BP HVtan−−=θθ Cθ : angle of hydraulic cylinder (QP ) for a horizontal axis iL : initial length between the center of gravity of i-times boom and the origin (O) TCL : initial length between the center of gravity of telescopic cylinder and the origin EL : length between the center of gravity and right edge of 6-times boom iLL : stretching length of each boom PL : length between the connecting pin of cylinder (P) and the origin OiL : length between the center of gravity of i-times
( )       −+ = − CP 2 A 2 C 2 P1 A LL2 LLL cosθ (2) Where, CL : length of hydraulic cylinder ; ( ) ( )2QPP 2 QP P C VsinLHcosLL + +− = θ θ AL : length between connecting pin of cylinder (Q) and the origin ; 2 Q 2 Q A VHL += Therefore, the load applied on cylinder ( CF ) with respect to the luffing angle of boom ( Bθ ) and the hoisting load (W) is expressed as follows: ( ) AP B 61i E6O TCOTC iOi C sinL cosWLLWLWL F θ θ      +++ = ∑= (3) The load ( CF ) derived in Eq. (3) is equal to the load applied on the pin type load cell which connects a hydraulic cylinder and a boom.

Studer et al. [3] define an ontology as ‘a formal, explicit specification of a shared conceptualization’.
El-Qawasmeh, Eds., Berlin, Heidelberg: Springer Berlin Heidelberg, 2011, pp. 337–347

[10] Sashisu Bajracharya, Deapesh Misra, Kris Gaj, Tarek El-Ghazawi, Reconfigurable Hardware Implementation of Mesh Routing in the Number Field Sieve Factorization, [11] Paul Zimmermann, CADO-NFS: An Implementation of The Number Field Sieve, 2008
Lenstra, et al, Factorization of a 768-bit RSA modulus, 2010

Linfield et al., J.
El-Shenawee, Opt.

Table 1 Raw material parameters Name Thickness/mm Material properties Elastic Modulus /GPa Poisson's ratio Shear modulus /GPa Chopped felt CSM300 0.6 Isotropic 74 0.23 70 Chopped felt CSM450 1 Isotropic 74 0.23 70 Checkered fabric LTM800/225 1 Orthogonal Anisotropy EL=76 0.23 75 ET=70 Marine foam Core cell 25 Isotropic 0.17 0.441 0.059 Resin 0.4 Isotropic 3.9 0.366 1.4 Test preparation.
G., et al.

Introduction Keenan et al [1], stated that silica compounds can be denoted as SiO2 (silicon dioxide) which can be used as adsorbents, catalysts, and filter media.
M., Daher, A., & El-kashef, E.

The hybridization was performed according to the report of Watanabe et al. [13].
El, and S.N.

Multi-Axis Vibration Power Generation Device for Automobiles Shunji Kumagai1,a, Kenji Suto1, Hiroaki Okada1, Makoto Kasai1, Seiji Hashimoto2,b, Nobuyuki Nagai2, Yoshimitsu Fujikura2, Junpei Takahashi2 1Research & Development Department, Mitsuba Corporation 1-2681 Hirosawa, Kiryu, Gunma 376-8555, Japan 2Department of Electronic Engineering, Gunma University 1-5-1 Tenjin, Kiryu, Gunma 376-8515, Japan as-kumaga@mitsuba.co.jp,bseijiha@el.gunma-u.ac.jp Keywords: energy harvesting, power generation, vehicle’s vibration, multi-mode vibration.
Lin, et al., Analyses of Vibration-Based Piezoelectric Power Generator in Discontinuous Operation Mode, Sensors and Actuators A: Physical, 152(1), (2009) pp. 48-52