Limit set

Template:Expert-subject A convenient notation for theoretic scheduling problems was introduced by Ronald Graham, Eugene Lawler, Jan Karel Lenstra and Alexander Rinnooy Kan in.^[1] It consists of three fields: α, β and γ.

Each field may be a comma separated list of words. The α field describes the machine environment, β the job characteristics, and γ the objective function.

Machine environment

Single stage problems

Each job comes with a given processing time.

1

there is a single machine

P

there are ${\displaystyle m}$ parallel identical machines

Q

there are ${\displaystyle m}$ parallel machines with different given speeds, length of job ${\displaystyle i}$ on machine ${\displaystyle j}$ is the processing time ${\displaystyle p_{i}}$ divided by speed ${\displaystyle s_{j}}$

R

there are ${\displaystyle m}$ parallel unrelated machines, there are given processing times ${\displaystyle p_{ij}}$ for job ${\displaystyle i}$ on machine ${\displaystyle j}$

The last two letters might be followed by the number of machines which is then fixed, here ${\displaystyle m}$ stands then for a fixed number.

Multi-stage problem

O

open shop problem

F

flow shop problem

J

job shop problem

Job characteristics

The processing time may be equal for all jobs (${\displaystyle p_{i}=p}$, or ${\displaystyle p_{ij}=p}$) or even of unit length (${\displaystyle p_{i}=1}$, or ${\displaystyle p_{ij}=1}$). This makes a difference because all release times, deadlines are assumed to be integer.

${\displaystyle r_{i}}$

for each job a release time is given before which it cannot be scheduled, default is 0.

${\displaystyle d_{i}}$

for each job a deadline is given after which it cannot be scheduled. If the objective is ${\displaystyle \sum U_{i}}$ for example, then this field is implicitly assumed.

pmtn

the jobs may be preempted and execution resumed later, possibly on a different machine

${\displaystyle size_{i}}$

Each job comes with a number of machines on which it must be scheduled at the same time, default is 1.

Precedence relations might be given for the jobs, in form of a partial order, meaning that if i is a predecessor of i' in that order, i' can start only when i is completed.

prec

an arbitrary precedence relation is given

sp-tree, tree, intree, outtree, chain

specific partial orders

Objective functions

Most objective functions depend on the deadline ${\displaystyle d_{i}}$ and the completion time ${\displaystyle C_{i}}$ of job ${\displaystyle i}$. We define lateness ${\displaystyle L_{i}=C_{i}-d_{i}}$, earliness ${\displaystyle E_{i}=\max\{0,d_{i}-C_{i}\}}$, tardiness ${\displaystyle T_{i}=\max\{0,C_{i}-d_{i}\}}$, unit penalty ${\displaystyle U_{i}=0}$ if ${\displaystyle C_{i}\leq d_{i}}$ and ${\displaystyle U_{i}=1}$ otherwise. The common objective functions are ${\displaystyle C_{\max },L_{\max },E_{\max },T_{\max },\sum C_{i},\sum L_{i},\sum E_{i},\sum T_{i}}$ or weighted version of these sums, where every job comes with a priority ${\displaystyle w_{i}}$.

Examples

Adapted from ^[1]

1|prec|${\displaystyle L_{\max }}$

a single machine, general precedence constraint, minimizing maximum lateness.

R|pnmt|${\displaystyle \sum C_{i}}$

variable number of unrelated parallel machines, allowing preemption, minimizing total completion time.

J3|${\displaystyle p_{ij}}$|${\displaystyle C_{\max }}$

3-machines job shop with unit processing times, minimizing maximum completion time.

References

• B. Chen, C.N. Potts and G.J. Woeginger. "A review of machine scheduling: Complexity, algorithms and approximability". Handbook of Combinatorial Optimization (Volume 3) (Editors: D.-Z. Du and P. Pardalos), 1998, Kluwer Academic Publishers. 21-169. ISBN 0-7923-5285-8 (HB) 0-7923-5019-7 (Set)
• Peter Brucker, Sigrid Knust. Complexity results for scheduling problems

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