...
Example 4.4.
Consider a three-echelon supply chain with system parameters presented in
Table 4.2. The demand rates are
5. 1
1
=
d
and
5. 4
2
=
d
,
0
=
s
t
, 0 .5
1
=
d
t ,
234 4 MODELING IN AN ... for example, Russell and Taylor 2000). In this section we study
the effect of cyclic demands on supply chain operations.
Consider a production game in a two-echelon supply...
... 42: 57 2 -58 6.
chains. Operations Research 46: 57 2 -58 3.
7.6 COLLABORATION, RISKS AND SUPPLY CHAINS 417
at prices larger than the franchisor’s marginal cost. For some contracts the
franchisor supply ...
strategies, coined type I and type II errors in a Neymann-Pearson statistical
438 8 QUALITY AND SUPPLY CHAIN MANAGEMENT
8.2.1 THE RISK NEUTRAL GAME
7.6 COLLABO...
...
• Supply Chains and Operations Modeling and Management
• Intertemporal Supply Chains Management
• Risk and Supply Chain Management
The first area provides both traditional static and discrete-time ... transformation of logis-
tics and operations into a concern for the management of supply chains
operations.
1.1 SUPPLY CHAIN OPERATIONS: A METAMORPHO...
... M, Parlar M (20 05) Game Theoretic Applications in Supply Chain
Management: A Review, INFOR 43(3): 187220.
Li L, Whang S (2001) Game theory models in operations management
and information systems. ... outsourcing-based supply chain.
An alternative way of improving the supply chain performance is to deve-
lop a risk- sharing contract which would make it possible to coordin...
... system dynamics on vertical and hori-
zontal competition in supply chains under simple demand patterns,
demand uncertainty and economy of scale;
• examining the effect of standard (static) as well ... deterministic demand, d(t)=
a(t)-b(t)p(t), with demand potential a(t) and customer sensitivity b(t) being
constant and thereby not affecting the supply chain dynamics. Eliashbe...
...
w
1
s
(t)=0.68+(t -5. 14) for 5. 14 10
≤
≤
t and w
2
s
(t)=1.14 + (t-9.74)
for 9.74 10
≤
≤
t ,
Example 4.6. (continued)
where h→ -0 and h=0.1.
4 .5 INTERTEMPORAL CO-INVESTMENT IN SUPPLY CHAINS 293 ... difference between a centralized
and a decentralized supply chain is that in a centralized supply chain, invest-
ments by each firm are proportional to the total su...
... production policy from Proposition 5. 10 (induced by a low demand
expectation) into (5. 28) and (5. 29). This converts the dynamic problem (5. 2),
(5. 9), (5. 23), (5. 28) and (5. 29) into a static one, to ...
5. 3 -5. 4).Proofs for Proposition 5. 5 as well as for the next two propositions
are similar and therefore omitted. Of course, special cases readily emanate
from Propositi...
... Anupundi and Akella
1993, Harland et al 2003.
7.3 SUPPLY CHAIN RISKS AND MONEY
Risk is a consequence, expressing the explicit and latent objectives of the
firm and the supply chain. In supply chains, ... measurement has its own error sources and
386 7 RISK AND SUPPLY CHAINS
PART III
RISK AND SUPPLY CHAIN
MANAGEMENT
6.3 SUPPLY...
...
.411
.56 15, .720
.308, .51 4
.4 05
.54 5, .720
.299, .51 2
20: Type II
(x,y)
Type II (P,S)
. 459
.67007, .766
.372, .52
.439
. 655 59, .766
. 352 , .52 6
.429
.643, .766
.34, .51
.4 25
.63, ... 8.3. Type I and type II Risks when Type I risks are binding
m
n
5 10 15
20
5:
Not feasible Not feasible Not feasible
Not feasible
10: Type II
(x,y)
Type II...