Shipping business is staggering the trade by a substantial number which portrays the usage of leading technologies to deliver formative and reliable performance to deal with the increasing demand. Technologies like AIS, machine learning, and IoT are making a shift in shipping industry by introducing robots and more sensor equipped devices. The hitch big data originates as a technology which is proficient for assembling and transforming the colossal and divergent figures of data providing organizations with meaningful insights for better decision-making. The size of data is increasing at a higher rate because of the procreation of peripatitic gadgets and sensors attached. Big data is accustomed to delineate technologies and techniques which are used to store, manage, distribute and analyze huge data sheets with a high rate of data occurrence. This gigantic data is allowing to terminate the business by developing meaningful and valuable insights by processing the data. Hadoop is the fundamental basic for composing big data and furnishes with convenient judgments through analysis. It enables the processing of large sets of data by providing a higher degree of fault-tolerance. Parallelism is adapted to process big size of data in the efficient and inexpensive way. Contending massive bulk of data is a determined and vigorous assignment that needs an enormous crunching armature to guaranty affluent data processing and analysis. 

Hashem, I.A.T. et al., 2014. The rise of “big data†on cloud computing: Review and open research issues. Information Systems, 47, pp.98–115.

M. Cox, D.Ellsworth, Managing Big Data for Scientific Visualization, ACM Siggraph, MRJ/NASA Ames Research Center, 1997.

J.Manyika, M.Chui, B.Brown, J.Bughin, R.Dobbs, C.Roxburgh, A.H. Byers, Bigdata: The next frontier for innovation, competition, and productivity, (2011).

P.Zikopoulos, K.Parasuraman, T.Deutsch, J.Giles, D.Corrigan, Harness the Power of BigData The IBM BigData Platform, McGraw-Hill Professional, 2012.

J.J. Berman, Introduction, in PrinciplesofBigData, Morgan Kaufmann, Boston, 2013,xix–xxvi (pp).

Sakr, S. & Gaber, M.M., 2014. Large Scale and big data: Processing and Management Auerbach, ed.

D.E. O’Leary, Artificialintelligenceandbigdata, IEEEIntell.Syst.28 (2013)96–99.

J.J. Berman, Introduction, in PrinciplesofBigData, Morgan Kaufmann, Boston, 2013, xix–xxvi (pp).

M.Chen,S.Mao,Y.Liu,Bigdata:asurvey,Mob.Netw.Appl.19(2) (2014)1–39.

https://www.genscape.com/solutions/maritime-freight/maritime-services-overview#tabs-About-Genscape-Maritime-Services_panel

J. Gantz, D.Reinsel, Extracting value from chaos, IDCi View (2011) 1–12.

Hadoop Distributed File System: Architecture and Design

http://hadoop.apache.org/common/docs/r0.18.2

http://www.marinetraffic.com/en/ais/home/centerx:-12.1/centery:25.0/zoom:4

Kaisler, S., Armour, F., Espinosa, J. A., Money, W. (2013). Big Data: Issues and Challenges Moving Forward. International Confrence on System Sciences (pp. 995-1004). Hawaii: IEEE Computer Soceity.

Lesser, A., 2014. Big Data and Big Agriculture. Gigaom Research, p. 11.

J. Dean, S. Ghemawat, MapReduce: Simplified data processing on large clusters, Commun. ACM51 (2008)107–113.