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static load models (keyword)
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1
book article
Conversion error of exponential to second order polynomial ZIP load model conversion
Leinakse, Madis
;
Kilter, Jako
2018 IEEE International Conference on Environment and Electrical Engineering and 2018 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe), 12-15 June 2018 : conference proceedings
2018
/
p. 1-5
https://doi.org/10.1109/EEEIC.2018.8493667
book article
Related publications
1
Estimation and conversion of static load models of aggregated transmission system loads = Ülekandevõrgu sõlmekoormuste staatiliste koormusmudelite määramine ja teisendamine
2
book article
Conversion error of second order polynomial ZIP to exponential load model conversion
Leinakse, Madis
;
Kilter, Jako
Mediterranean Conference on Power Generation, Transmission, Distribution and Energy Conversion (MEDPOWER 2018) : Dubrovnik, Croatia, 12-15 November 2018
2018
/
5 p
https://doi.org/10.1049/cp.2018.1882
book article
Related publications
1
Estimation and conversion of static load models of aggregated transmission system loads = Ülekandevõrgu sõlmekoormuste staatiliste koormusmudelite määramine ja teisendamine
3
book article
Estimation of exponential and ZIP load model of aggregated load with distributed generation
Leinakse, Madis
;
Andreesen, Guido
;
Tani, Pärtel
;
Kilter, Jako
2021 IEEE 62nd International Scientific Conference on Power and Electrical Engineering of Riga Technical University (RTUCON)
2021
/
p. 1-6
https://doi.org/10.1109/RTUCON53541.2021.9711702
book article
Related publications
1
Estimation and conversion of static load models of aggregated transmission system loads = Ülekandevõrgu sõlmekoormuste staatiliste koormusmudelite määramine ja teisendamine
4
book article
Identification of intra-day variations of static load characteristics based on measurements in high-voltage transmission network
Leinakse, Madis
;
Kiristaja, Hendrik
;
Kilter, Jako
2018 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe), Sarajevo, Bosnia and Herzegovina, October 21-25, 2018 : proceedings
2018
/
6 p
https://doi.org/10.1109/ISGTEurope.2018.8571712
book article
Related publications
1
Estimation and conversion of static load models of aggregated transmission system loads = Ülekandevõrgu sõlmekoormuste staatiliste koormusmudelite määramine ja teisendamine
5
book article
Modelling aggregated load with distributed generation by exponential load model
Leinakse, Madis
2021 IEEE 62nd International Scientific Conference on Power and Electrical Engineering of Riga Technical University (RTUCON)
2021
/
1-6 p
https://doi.org/10.1109/RTUCON53541.2021.9711586
book article
6
book article
Processing and filtering digital fault recorder events for load model estimation
Leinakse, Madis
;
Kilter, Jako
2021 IEEE PES Innovative Smart Grid Technologies Europe (ISGT-Europe), 8-21 October, 2021 : proceedings
2021
/
5 p
https://doi.org/10.1109/ISGTEurope52324.2021.9640026
book article
Related publications
1
Estimation and conversion of static load models of aggregated transmission system loads = Ülekandevõrgu sõlmekoormuste staatiliste koormusmudelite määramine ja teisendamine
7
journal article
Utilizing demand response in load modelling for voltage and reactive power control studies
Drovtar, Imre
;
Leinakse, Madis
;
Tuttelberg, Kaur
;
Kilter, Jako
IEEE transactions on power systems
2024
/
12 p
https://doi.org/10.1109/TPWRS.2024.3425157
journal article
Number of records 7, displaying
1 - 7
keyword
255
1.
static load models
2.
static load test
3.
quasi static
4.
quasi-static
5.
quasi-static analysis
6.
quasi-static and dynamic collision simulations
7.
quasi-static channel
8.
quasi-static compression
9.
quasi-static loading
10.
quasi-static Maxwell’s equations
11.
quasi-static structural response
12.
simulation based static optimization
13.
static analysis
14.
static electricity
15.
static heat flows
16.
static magnetic field
17.
static measurement feedback
18.
static posture
19.
static power converters
20.
static shading
21.
static timing analysis
22.
static VAR compensators
23.
static-dynamic probing test (SDT)
24.
base load
25.
commercial load
26.
constant power load
27.
consumer load
28.
consumer load patterns
29.
cooling load
30.
cooling load reduction
31.
cubic economic load dispatch
32.
DHW heating load in educational buildings
33.
DHW heating load in public buildings
34.
dynamic load model
35.
economic load dispatch
36.
economic load dispatch (ELD)
37.
electric load
38.
electric load flow
39.
electrical and heat load
40.
electrical load characteristics
41.
EV load model
42.
exponential load model
43.
grid load
44.
heating load
45.
hygrothermal load
46.
ice load
47.
indentor load
48.
indoor hygrothermal load
49.
light-load efficiency
50.
load
51.
load balancing
52.
load control
53.
load curtailment
54.
load cycling
55.
load disaggregation
56.
load distribution
57.
load flexibility
58.
load following
59.
load forecast
60.
load forecasting
61.
load frequency control
62.
load frequency control (LFC)
63.
load leveling
64.
load limit states
65.
load management
66.
load matching
67.
load modeling
68.
load modelling
69.
load monitoring
70.
load pattern
71.
load prediction
72.
load scheduling
73.
load shifting
74.
load test
75.
load testing
76.
load transients
77.
load variance
78.
load-bearing analysis
79.
load-bearing capacity
80.
load-independent voltage output
81.
moisture load
82.
Non-intrusive load monitoring
83.
non-intrusive load monitoring (NILM)
84.
nonlinear load
85.
nutrient load
86.
nutrient load estimation
87.
on-load tap changer
88.
on-load tap changer (OLTC)
89.
peak heat load
90.
peak load
91.
peak load shifting
92.
pile load–displacement
93.
Point Load Test index
94.
pollution load
95.
propulsion load
96.
pulsed power load (PPL)
97.
random variable load (RVL)
98.
residential load
99.
shear load
100.
short-term load forecast
101.
short-term load forecasting
102.
sudden load change
103.
thermal load
104.
Thermostatic load
105.
thermostatically controlled load
106.
unbalanced load
107.
undesirable load
108.
value of lost load
109.
wind load
110.
actor models
111.
adaptation models
112.
agent-based models
113.
aging models
114.
AI maturity models
115.
analytical models
116.
animal models
117.
atmosphere models
118.
bottom-up models
119.
BRT models
120.
business development models
121.
business models
122.
capability models
123.
channel models
124.
circular business models
125.
circular economy models
126.
climate models
127.
competence models
128.
computational models
129.
continuum models
130.
control fault models
131.
coupled wave-circulation-atmosphere models
132.
coupled models
133.
data models
134.
demonstration models
135.
didactical models
136.
discrete models
137.
disease models
138.
dq0 models
139.
DSL meta-models
140.
dynamic models
141.
dynamics models
142.
econometric models
143.
EMT models
144.
energy models
145.
entrepreneurial role models
146.
estimation models
147.
excellence models
148.
factor models
149.
factor-augmented vector autoregressive models
150.
Faith-based governance models
151.
fault models
152.
feature space for taxonomy of models of interactive computation
153.
FEM Hertz contact and wear models
154.
FEM Models
155.
fetch-based models
156.
forecasting models
157.
fraud models
158.
functional models
159.
glass-box models
160.
goal models
161.
governance and ownership models
162.
habitat suitability models
163.
hierarchical service models
164.
hybrid models
165.
hydraulic models
166.
in vitro models
167.
input-output models
168.
input–output models
169.
interactive models
170.
interoperability and evolution of healthcare models and software systems
171.
inventory replenishment models
172.
language models
173.
large language models
174.
large language models (LLM)
175.
learner models
176.
learning models
177.
linear mixed models
178.
linear models
179.
LOD3 models
180.
logic models
181.
logic models and simulation
182.
logistics competence models
183.
lower trophic level models
184.
LRA models
185.
machine learning models
186.
Markov models
187.
mathematical models
188.
mathematical models for economic problems
189.
maturity models
190.
mental models
191.
meta-models
192.
metapopulation models
193.
models
194.
models for risk assessment
195.
models in psychology
196.
Models of computation
197.
multilingual models
198.
multimodal models
199.
multiple regression models
200.
multivariate GARCH models
201.
neural network models
202.
new learning models
203.
non-linear models
204.
Non-stationary Models
205.
numerical models
206.
ocean models
207.
optimization models
208.
prediction models
209.
predictive models
210.
pre-trained models
211.
price models
212.
probabilistic graphical models
213.
process models and modelling
214.
radio propagation models
215.
regression models
216.
RMS models
217.
rock models
218.
role-models
219.
scaled-down models
220.
science-driven models
221.
second generation of tribology models
222.
sectoral models
223.
service models
224.
shared mental models
225.
simulation models
226.
smooth transition VAR models
227.
sparse models
228.
Spatial statistical models
229.
species distribution models
230.
stage and maturity models
231.
stage- and maturity models
232.
stage models
233.
state-space models
234.
statistical prediction models
235.
structure models
236.
surface models
237.
surgery models
238.
sustainable business models
239.
Sustainable Business Models Interdependence Theory’s Principle Of Interaction
240.
sustainable entrepreneurial role models
241.
synthesis on hierarchical service models
242.
synthetic gravity models
243.
teaching models
244.
theoretical models
245.
thermal models
246.
time-averaged models
247.
top-down models
248.
trajectory models
249.
transformer models
250.
transformer-based models
251.
trust models in technology
252.
turbulence models
253.
wavelet models
254.
wind park models
255.
3D models
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Smart Load Solutions
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