@incollection{,
	
					
					
					EFB09E4A0FBE08A5E5E3934ABDC10A8E
				,
	author={{MumtazKaratas} and {National Defense University, Turkish Naval Academy}},
	journal={{Global Journal of Researches in Engineering}},
	journal={{GJRE}}2249-45960975-586110.34257/gjre,
	address={Cambridge, United States},
	publisher={Global Journals Organisation}17218
}

@incollection{b0,
	
	
		,
	title={{Automated Storage Retrieval Systems Production Section of the Material Handling Industry of America}}
	
	
		,
	journal={{AS/RS Group Charts}}
		
			,
	year={2005}
		
	

}

@book{b1,
	
	
		,
	title={{Travel-Time Models for Automated Storage/Retrieval Systems}}
		,
	author={{
			YBozer
		} and {
			JWhite
		}}
		
		
			,
	year={1984}
			16
			
		
	

}

@incollection{b2,
	
	
		,
	title={{On the other hand, the multishuttles in the CTS travel inside the storage rack 6.56 feet per second and outside the storage with the velocity of 3.28 feet/ second. The speed for vertical movement is same for all three warehouse systems with 1 foot/ second. Therefore, the CTS gives the smallest cycle time results for a great variety of product range. Besides, the horizontal and vertical velocities are different for all kind of warehouse systems}}
	
	
		,
	booktitle={{the AS/RS fits well as a warehouse 4.16 feet/ horizontally}}
				
	
	,
	note={For instance, the crane within the AS/RS storage rack moves 5 feet/second whereas, the shuttle for an AVS/RS moves}

}

@book{b3,
	
	
		,
	title={{Performance comparison of two material handling systems: AVS/RS and CBAS/RS}}
		,
	author={{
			BYEkren
		} and {
			SSHeragu
		}}
		
		
			,
	year={2011}
			50
			
		
	

}

@book{b4,
	
	
		,
	title={{Simulation based regression analysis for rack configuration of autonomous vehicle storage and retrieval system}}
		,
	author={{
			BEkren
		} and {
			SHeragu
		}}
		
		
			,
	year={2010}
		
	

}

@book{b5,
	
	
		,
	title={{A comparison of alternative conceptualizing tools for automated storage and retrieval systems}}
		,
	author={{
			FEldemir
		} and {
			RGraves
		} and {
			CMalmborg
		}}
		
		
		
			,
	year={2003}
			41
			
		
	

}

@book{b6,
	
	
		,
	title={{An efficient cycle time model for autonomous vehicle storage and retrieval systems}}
		,
	author={{
			MFukunari
		} and {
			CMalmborg
		}}
		
		
			,
	year={2008}
			46
			
		
	

}

@book{b7,
	
	
		,
	title={{Models for automated storage and retrieval systems: a literature review}}
		,
	author={{
			J.-PGagliardi
		} and {
			JRenaud
		} and {
			ARuiz
		}}
		
		
		
			,
	year={2011}
			50
			
		
	

}

@book{b8,
	
	
		,
	title={{Internet der Dinge inder Intra-logistik}}
		,
	author={{
			WAGünthner
		} and {
			MHompel
		}}
		
		
			,
	year={2010}
			,
	publisher={Springer}
			,
	address={Berlin}
		
	

}

@book{b9,
	
	
		,
	author={{
			AKamagaew
		} and {
			JStenzel
		} and {
			ANettsträter
		} and {
			MHompel
		}}
		
		
		
		,
	title={{Concept of Cellular Transport Systems in Facility Logistics}}
				
			,
	year={2011}
			
		
	

}

@book{b10,
	
	
		,
	author={{
			TKirks
		} and {
			JStenzel
		} and {
			AKamagaew
		} and {
			MHompel
		}}
		
		
		
		,
	title={{Zellulare Transportfahrzeuge für flexible und wandelbare Intralogistiksysteme}}
				
			,
	year={2012}
		
	

}

@book{b11,
	
	
		,
	title={{Conceptualising tools for autonomous vehicle storage and retrieval systems}}
		,
	author={{
			CJMalmborg
		}}
		
			,
	year={2002}
			40
			
		
	

}

@book{b12,
	
	
		,
	title={{A survey of literature on automated storage and retrieval systems}}
		,
	author={{
			KJRoodbergen
		} and {
			IFVis
		}}
		
		
			,
	year={2009}
			194
			
		
	

}

@book{b13,
	
	
		,
	title={{}}
		,
	author={{
			MTen Hompel
		} and {
			VHeidenblut
		}}
		
		
			,
	year={2011}
		
	

}

@book{b14,
	
	
		,
	title={{Taschenlexikon Logistik: Abkürzungen, Definitionen und Erläuterungen der wichtingsten Begriffe aus Materialfluss und Logistik}}
				Berlin
		
			,
	publisher={Springer}
			361
		
	

}