Nepros- An Innovated Crystal Necklace
Commenced in January 2007
Frequency: Monthly
Edition: International
Paper Count: 33122
Nepros- An Innovated Crystal Necklace

Authors: Amir A. N, Fadzilan A. M, Baskaran G.

Abstract:

In this paper, we proposed an invention of an accessory into a communication device that will help humans to be connected universally. Generally, this device will be made up of crystal and will combine many technologies that will enable the user to run various applications and software anywhere and everywhere. Bringing up the concept of from being user friendly, we had used the crystal as the main material of the device that will trap the surrounding lights to produce projection of its screen. This leads to a lesser energy consumption and allows smaller sized battery to be used, making the device less bulky. Additionally, we proposed the usage of micro batteries as our energy source. Thus, researches regarding crystal were made along with explanations in details of specification and function of the technology used in the device. Finally, we had also drawn several views of the invention from different sides to be visualized.

Keywords: Crystal, Communication Technology, Future concept device, Micro batteries.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1086751

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1535

References:


[1] Petrick, K. D. U.S. Patent Application 09/907, 737, 2001.Topoulos, G. (2010). U.S. Patent Application 12/730,346.
[2] Casini, M., Prattichizzo, D., & Vicino, A. (2003). The automatic control telelab: a user-friendly interface for distance learning. Education, IEEE Transactions on, 46(2), 252-257.
[3] Mittal, R., Kansal, A., & Chandra, R., "Empowering developers to estimate app energy consumption," In Proceedings of the 18th annual international conference on Mobile computing and networking, 2012, pp. 317-328.
[4] McCrary, Charles F. "Jewelry lighting device." U.S. Patent No. 5,323,300. 21 Jun. 1994.
[5] Pikul, J. H., Zhang, H. G., Cho, J., Braun, P. V., & King, W. P. . Highpower lithium ion microbatteries from interdigitated three-dimensional bicontinuous nanoporous electrodes. Nature communications, 4, 1732, 2013.
[6] Howard, J. Michael; Darcy Howard (Illustrator) (1998). "Introduction to Crystallography and Mineral Crystal Systems". Bob's Rock Shop. Retrieved 2008-04-20.
[7] Jellison, G. E., and H. H. Burke. "The temperature dependence of the refractive index of silicon at elevated temperatures at several laser wavelengths." Journal of applied physics 60.2 (1986): 841-843.
[8] Donachie, Matthew J., “TITANIUM: A Technical Guide,” in Metals Park, OH: ASM International, 1988, pp. 11.
[9] Kanayama, H., Maeda, M., Miwa, T., Ikeda, T., Murata, H., & Chihara, K., “Ultra small projector with high efficiency illumination system,” In Consumer Electronics ICCE'06, 2006 Digest of Technical Papers. International Conference, 2006, pp. 127-128.
[10] Ansari, N., Lee, S., & Wu, Z. “Pre-Silicon Verification of Tegra Image Signal Processor”.
[11] Misaiji, T., & Oooka, N. (2002). U.S. Patent Application 10/293,301.
[12] Koukoumidis, E., Martonosi, M., & Peh, L. S. “Leveraging smartphone cameras for collaborative road advisories,” in Mobile Computing, IEEE Transactions on, 11(5), 2012, pp. 707-723.
[13] Pavlovic, V. I., Sharma, R., & Huang, T. S., “Visual interpretation of hand gestures for human-computer interaction: A review,” in Pattern Analysis and Machine Intelligence, IEEE Transactions on, 19(7), 1997, 677-695.
[14] Ionescu, B., Coquin, D., Lambert, P., & Buzuloiu, V. “Dynamic hand gesture recognition using the skeleton of the hand,” in EURASIP Journal on Applied Signal Processing, 2005, pp. 2101-2109.
[15] Keskin, C., Kıraç, F., Kara, Y. E., & Akarun, L, “Real time hand pose estimation using depth sensors,” in Consumer Depth Cameras for Computer Vision, Springer London, 2013, pp. 119-137.
[16] Menier, C., Boyer, E., & Raffin, B. “3d skeleton-based body pose recovery,” in 3rd International Symposium on 3D Data Processing, Visualization and Transmission (DPVT'06), 2006, pp. 389-396.
[17] O’sullivan, C. K., & Guilbault, G. G. (1999). Commercial quartz crystal microbalances–theory and applications. Biosensors and Bioelectronics, 14(8), 663-670.
[18] Tennant, Smithson. "On the Nature of the Diamond. By Smithson Tennant, Esq. FRS." Philosophical Transactions of the Royal Society of London 87 (1797): 123-127.