5 results listed
When the evolution of human being is analyzed, it is
seen that almost all activities are developed by trial and error
method. However, it is also known that these methods are not
productive and cause much time loss. Therefore, various methods
have been developed to solve the problems encountered in
different situations. As to educational activities, they mainly have
quite different qualities than others. In general, education and
training is done collectively by bringing people at the same level
together. Although we accept individuals who are brought
together of the same nature, this is not a very correct approach in
many cases. In fact, people have different levels of knowledge and
experience. Scientific studies have even shown that each
individual's learning method differs. Therefore, whatever method
is used, it is difficult to obtain the desired efficiency in collective
learning. In this study, a new learning method based on interactive
learning and knowledge based learning systems has been
developed with reference to the personal differences that emerged
during learning. With this method, first, the strong and weak
aspects of the person related to the subject to be learned are
determined and then the interactive learning is provided with the
designed interface. In this learning method where learning is
performed at different periods with asynchronous learning
techniques, creating permanent learning by taking individual
differences into account is the ultimate goal.
International Conference on Advanced Technologies, Computer Engineering and Science
ICATCES
Gokhan Atali
D.KARAYEL
S.S.OZKAN
Maintenance management helps to keep industrial systems in their optimum operating conditions. Thus, industrial
maintenance is an inevitable service for an efficient production system. Essentially, the nominal life of each part of
industrial products is anticipated by the designers in their design phase. Depending on this approach, the design life
of most equipment requires periodic maintenance. However, the operating conditions and environment of many
industrial equipment directly affect the maintenance period. For example, belts need a proper adjustment and
alignment. Rotating elements require a proper lubrication, and so on. Therefore, the nominal life anticipated at the
design stage does not occur for most industrial system components. This case is a very important risk factor for critical
sectors. On the other hand, the conventional maintenance programs such as reactive, preventive and predictive cannot
provide successful to adequately contribute to the solution of the problem. This study have been focused to investigate
different approaches to how maintenance can be performed to ensure equipment reaches its design life. So, the main
purpose of the study is to determine mechatronic system failures before they occur. For this purpose, as an initial
study, a general framework for internet of things (IoT) based maintenance management model have been developed.
International Symposium on Industry 4.0 and Applications
ISIA
Ekrem Çalışkan
Gokhan Atali
D.KARAYEL
S.S.OZKAN
Recep Kılıç
Günümüz endüstrisinde mobil robotların yeri ve önemi her geçen gün artmaktadır. Endüstride sıralama,
taşıma ve yerleştirme gibi amaçlarla mobil robotların kullanımı artık bir tercih değil gereksinim haline
gelmektedir. Çizgi, manyetik alan, kızılötesi ışın veya görüntü izleme gibi metotlarla, mobil robotların
konumlandırılması ve yol planlamalarının yapılması mümkündür. Bu metotların kullanımı, uygulama
sahalarına göre değişiklik arz etmektedir. Endüstride başlangıçta çizgi izleyen taşıyıcı mobil robotlarla
başlayan mobil robot uygulamaları gün geçtikçe kendini geliştirmekte ve farklı metot arayışlarına
geçilmektedir. Endüstri 4.0 başlığı altında konu incelenecek olursa mobil robotların kabiliyetlerinin
yenilikçi teknolojilerle donatılması gerekliliği ortaya çıkmaktadır. Hızlı, etkili ve pratik çözüm
sunabilecek mobil robotlara olan ihtiyaç, akademisyenler ve ticari ürün geliştiricileri tarafından
incelenmektedir. Bu çalışmada, dağıtık hareket kabiliyetine sahip endüstriyel mobil robotların yol
planlaması üzerine QR kod tabanlı bir çalışma yürütülmesi amaçlanmaktadır. Bu amaçla mobil robot
çalışma alanı, koordinatlar QR kodlar ile temsil edilecek şekilde matris formunda hazırlanmıştır. Bu
şekilde geliştirilen yol planlama algoritması mevcut algoritmaların bir türevi olarak
değerlendirilebilmektedir.
International Symposium on Industry 4.0 and Applications
ISIA
Gokhan Atali
S.S.OZKAN
D.KARAYEL
Zeynep Garip
The cement industry is one of the most important supporting elements of construction sector and it has a
very important role in the economy of countries. On the other hand, in this sector, the cost of energy contains
a very important part of the total production costs. Therefore, to reduce production costs without negatively
affecting product quality, the most important possibility is to use energy efficiently. In other words, energy
efficiency is an inexpensive opportunity to reduce production costs and even pollutant emissions of the
plant while the other solutions are expensive and inefficient. At cement production, there are a lot of sub
processes such as raw material extraction, crushing, grinding, pre-heater phase, kiln phase, cooling, final
grinding, packing and shipping. So, the plant is an integrated system consisting of a number of sub-units.
Moreover, these subsystems are in remote locations to each other. The control of such very large integrated
systems is difficult and it requires to use Distributed Advanced Control Systems. In this study, Industrial
Internet of Things (IIoT) has been used for improve energy efficiency in cement plants. The IIoT is the use
of Internet of Things (IoT) technologies in industry and it particularly is suitable for large enterprises.
Because, the Industrial Internet, IIoT incorporates machine learning and big data technology, harnessing
the sensor data, machine-to-machine (M2M) communication and automation technologies that have existed
in industrial settings for years. This study is the first step of a very comprehensive project and is a general
framework. In the study, firstly the energy use of plant has been analyzed and the current energy efficiency
has been evaluated. After, a model based on energy efficiency has developed by using IIoT. It will be
expected that this model will be the basis for future studies.
International Symposium on Industry 4.0 and Applications
ISIA
Ahmet Kolip
Gokhan Atali
S.S.OZKAN
D.KARAYEL
Maintenance management helps to keep industrial systems in their optimum operating conditions. Thus, industrial
maintenance is an inevitable service for an efficient production system. Essentially, the nominal life of each part of
industrial products is anticipated by the designers in their design phase. Depending on this approach, the design life
of most equipment requires periodic maintenance. However, the operating conditions and environment of many
industrial equipment directly affect the maintenance period. For example, belts need a proper adjustment and
alignment. Rotating elements require a proper lubrication, and so on. Therefore, the nominal life anticipated at the
design stage does not occur for most industrial system components. This case is a very important risk factor for critical
sectors. On the other hand, the conventional maintenance programs such as reactive, preventive and predictive cannot
provide successful to adequately contribute to the solution of the problem. This study have been focused to investigate
different approaches to how maintenance can be performed to ensure equipment reaches its design life. So, the main
purpose of the study is to determine mechatronic system failures before they occur. For this purpose, as an initial
study, a general framework for internet of things (IoT) based maintenance management model have been developed.
International Symposium on Industry 4.0 and Applications
ISIA
Ekrem Çalışkan
Gokhan Atali
D.KARAYEL
S.S.OZKAN
Recep Kılıç