... undergo long-term
movement are landslides that may creep for hun-
dreds of years resulting in accumulative move-
ment of tens of meters. Such movement may
comprise an approximately uniform creep rate,
on ... 1996).
The mesh is a two-layer system comprising a
50 mm chain link mesh, and either woven steel
wire-rope mesh or interlocking steel rings. The
Grout
3m
3.7 m ( ±0.1 5m)
Wire rope
anchor
16 mm (min.) ... shotcrete process
using bagged mix feeding a pump and
pre-moisturizer.
322 Movement monitoring
13.2 Types of slope movement
In setting up a movement monitoring program
it is useful to have an understanding...
... operators.
In open pit mining, the optimum slope design
is usually one that maximizes overall slope angles
and minimizes the amount of waste stripping.
At the same time, it must effectively manage the
risk ... heights, minimum berm widths, and the
apparent dip or plunge considered to control
bench stability determined earlier were used
to determine maximum inter-ramp slope angles
for each design sector. Minimum ... other by chemical decomposition includ-
ing solution. Generally, both mechanical and
chemical effects act together, but, depending
on climatic regime, one or other may be dom-
inant. Mechanical...
... per
meter
N /m 1 lbf/ft = 14.59 N /m 1 N /m = 0.068 53 lbf/ft
Hydraulic
conductivity
centimeter per
second
meter per
second
m/ s 1 cm/s = 0.01 m/ s 1 m/ s = 100 cm/s
foot per year meter per
second
m/ s ... 325;
displacement plot 332; failure
mechanism 332; failure
prediction 331; GPS 327;
inclinometer 328; laser
imaging 327; movement/time
plots 331; numerical analysis
240; regressive/progressive
movement ... kinematic test 39;
limit equilibrium 206;
movement monitoring 322,
329; movement vectors 332;
numerical analysis 236; open
pit 42, 241; open pit coal mine
203; secondary mechanism
202; stereonet...
... optimal control problem can be solved using dynamic programming techniques.
(h) An integer programming problem is same as a discrete programming problem.
1.3 Define the following terms:
(a) Mathematical ... Mathematical programming problem
(b) Trajectory optimization problem
(c) Behavior constraint
(d) Quadratic programming problem
(e) Posynomial
(f) Geometric programming problem
1.4 Match the following ... programming problem is demonstrated in
Example 1.11.
Example 1.11 Find the solution of the following nonlinear optimization problem
(same as the problem in Example 1.1) using the MATLAB function
fmincon:
Minimize...
... software maintenance? Would you enjoy doing it?
1.9 Think of an example of a program in which the aims of minimizing run time and mem-
ory occupancy are mutually contradictory. Think of an example ... problems and prospects
■ real-time systems – in which the computer must respond quickly, for example, the
control software for a power station
■ embedded systems – in which the computer plays a smallish ... The ATM 407
A.2 The word processor 408
A.3 Computer game 408
A.4 The library 409
A.5 Patient monitoring system 410
B Glossary 411
C UML Summary 412
C.1 Use case diagrams 412
C.2 Class diagrams 413
C.3...
... 39
Process Statement 40
Sensitivity List 40
Process Example 40
Signal Assignment Versus Variable Assignment 42
Incorrect Mux Example 43
Correct Mux Example 45
Sequential Statements 46
IF Statements 47
CASE ... resulting
value from the calculation is scheduled on output
c
, 5 nanoseconds from
the time the calculation is completed.
The next example shows more complicated signal assignment state-
ments and demonstrates ... write the
mux
design is to instantiate subcomponents that
perform smaller operations of the complete model. With a model as simple
as the 4-input multiplexer that we have been using, a simple gate...