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journal article
Technology push in AI-enabled services : how to master technology integration in case of Bürokratt
Dreyling III, Richard Michael
;
Tammet, Tanel
;
Pappel, Ingrid
SN computer science
2024
/
art. 738
https://doi.org/10.1007/s42979-024-03064-0
journal article
Seotud publikatsioonid
1
Digital transformation : artificial intelligence enablement in public services = Digisiire ja tehisintellekti rakenduseeldused avalikes teenustes
Number of records 1, displaying
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keyword
165
1.
AI maturity models
2.
maturity models
3.
stage and maturity models
4.
stage- and maturity models
5.
Capability Maturity Model Integration for Development
6.
data quality maturity model
7.
digital maturity
8.
IT system maturity
9.
Maturity framework
10.
maturity model
11.
partner network maturity
12.
PLM maturity model
13.
Richardson Maturity Model
14.
Thermal maturity
15.
AI
16.
Ai act
17.
AI adoption in government
18.
AI barriers
19.
AI based CAD software
20.
AI bias
21.
AI change
22.
AI ethics
23.
AI functionality
24.
AI in public sector
25.
AI in public services
26.
AI in the public sector
27.
AI race
28.
AI revolution
29.
AI strategy
30.
AI/ML
31.
AI-based worker management
32.
AI-capability
33.
AI-enabled innovation
34.
artificial intelligence (AI)
35.
automatic AI (autoAI)
36.
blockchain framework for trustworthy Ai
37.
cloud- and AI-based system
38.
ethics of AI
39.
Explainable AI
40.
explainable AI (XAI)
41.
explainable AI model
42.
Functional specialist in AI for public services
43.
generative AI
44.
high-level expert group on AI
45.
public acceptance of AI
46.
public sector AI
47.
trustworthy AI
48.
adaptation models
49.
agent-based models
50.
aging models
51.
analytical models
52.
animal models
53.
atmosphere models
54.
bottom-up models
55.
business development models
56.
business models
57.
capability models
58.
channel models
59.
circular economy models
60.
climate models
61.
competence models
62.
computational models
63.
control fault models
64.
coupled wave-circulation-atmosphere models
65.
coupled models
66.
data models
67.
demonstration models
68.
didactical models
69.
disease models
70.
dq0 models
71.
DSL meta-models
72.
dynamic models
73.
econometric models
74.
EMT models
75.
energy models
76.
excellence models
77.
factor models
78.
factor-augmented vector autoregressive models
79.
fault models
80.
feature space for taxonomy of models of interactive computation
81.
FEM Hertz contact and wear models
82.
FEM Models
83.
fetch-based models
84.
fraud models
85.
functional models
86.
goal models
87.
governance and ownership models
88.
habitat suitability models
89.
hierarchical service models
90.
hybrid models
91.
hydraulic models
92.
in vitro models
93.
input-output models
94.
input–output models
95.
interactive models
96.
interoperability and evolution of healthcare models and software systems
97.
inventory replenishment models
98.
learner models
99.
learning models
100.
linear mixed models
101.
LOD3 models
102.
logic models
103.
logic models and simulation
104.
logistics competence models
105.
lower trophic level models
106.
machine learning models
107.
Markov models
108.
mathematical models
109.
mathematical models for economic problems
110.
mental models
111.
meta-models
112.
metapopulation models
113.
models
114.
models for risk assessment
115.
models in psychology
116.
Models of computation
117.
multilingual models
118.
multiple regression models
119.
multivariate GARCH models
120.
new learning models
121.
non-linear models
122.
numerical models
123.
ocean models
124.
optimization models
125.
prediction models
126.
predictive models
127.
pre-trained models
128.
price models
129.
probabilistic graphical models
130.
process models and modelling
131.
radio propagation models
132.
regression models
133.
RMS models
134.
rock models
135.
role-models
136.
science-driven models
137.
second generation of tribology models
138.
sectoral models
139.
service models
140.
shared mental models
141.
simulation models
142.
smooth transition VAR models
143.
sparse models
144.
Spatial statistical models
145.
stage models
146.
state-space models
147.
static load models
148.
statistical prediction models
149.
structure models
150.
surface models
151.
surgery models
152.
sustainable business models
153.
synthesis on hierarchical service models
154.
synthetic gravity models
155.
teaching models
156.
theoretical models
157.
thermal models
158.
time-averaged models
159.
top-down models
160.
trajectory models
161.
trust models in technology
162.
turbulence models
163.
wavelet models
164.
wind park models
165.
3D models
author
15
1.
Avetisyan, A.I.
2.
Borštševski, A.I.
3.
Gavrilyuk, A.I.
4.
Ivanov, A.I.
5.
Kanunnikov, A.I.
6.
Kestens, Leo A.I.
7.
Platonov, A.I.
8.
Rapoport, A.I.
9.
Sevostjanova, A.I.
10.
Shishkin, A.I.
11.
Shyshkin, A.I.
12.
Solomaha, A.I.
13.
Sukhinov, A.I.
14.
Voronin, A.I.
15.
Šuvalov, A.I.
subject term
3
1.
AI in business, workshop (2022 : Tallinn)
2.
Eleflex.ai
3.
Snackable AI
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