Analisa Waktu Angkut Terhadap Optimasi Penempatan Group Tower Crane (Studi Kasus: Proyek Pembangunan Apartemen Grand Jati Juction)
DAFTAR ACUAN
[1].
Irizarry. J., Karan, E. P. 2012. Optimizing Location Of Tower Cranes
On Construction
Sites Through Gis And Bim Integration. Journal of
Information Technology in Construction, 17, 351-366.
[2].
Irizarry. J., Karan, E. P. 2012. Optimizing Location Of Tower Cranes
On Construction
Sites Through Gis And Bim Integration. Journal of
Information Technology in Construction, 17, 351-366.
[3].
Al-Hussein, M., Niaz, M., A., Yu, H., & Kim, H. 2006. Integrating 3D
visualization and simulation for tower crane operations on construction
sites. Automation in Construction, 15(5), 554-562.
[4].
Irizarry. J., Karan, E. P. 2012. Optimizing Location Of Tower Cranes
On Construction
Sites Through Gis And Bim Integration. Journal of
Information Technology in Construction, 17, 351-366.
[5].
Rostiyanti, S. F. 2002. Alat Berat untuk Proyek Konstruksi, Rineka Cipta,
Jakarta.
[6].
Gray, C., and Little, J. (1985). A systematic approach to the selection
of an appropriate crane for a construction site,
Construction
Management and Economics, 3, pp. 121-144.
[7].
Kholil, Ahmad. 2012. Alat Berat. Penerbit : PT. Remaja Rosdakarya.
[8].
Kholil, Ahmad. 2012. Alat Berat. Penerbit : PT. Remaja Rosdakarya.
[9].
Kholil, Ahmad. 2012. Alat Berat. Penerbit : PT. Remaja Rosdakarya.
[10]. Kholil, Ahmad. 2012. Alat Berat. Penerbit : PT. Remaja Rosdakarya.
x
Universitas Sumatera Utara
[11]. Rostiyanti, S. F. 2002. Alat Berat untuk Proyek Konstruksi, Rineka Cipta,
Jakarta.
[12]. Sebt, M. H, Karan , E. P, Delavar. M. R. 2008. Potential Application of
GIS to Layout of Construction Temporary Facilities. International Journal
of Civil Engineering, Vol. 6, No. 4, December 2008.
[13]. Sebt, M. H, Karan , E. P, Delavar. M. R. 2008. Potential Application of
GIS to Layout of Construction Temporary Facilities. International Journal
of Civil Engineering, Vol. 6, No. 4, December 2008.
[14]. Tam and Arthur W T Leung. 2008. Genetic Algorithm Modeling Aided
with 3D Visualization in Optimizing Construction Site Facility Layout.
International Department of Building & Construction and Division of
Building Science and Technology, City University of Hong Kong.
[15]. Kang, S.,C., & Miranda, E. 2004. Automated Simulation of the Erection
Activities in Virtual Construction. Proceedings of The International
Conference on Computing in Civil and Building Engineering (ICCCBE).
xi
Universitas Sumatera Utara
DAFTAR PUSTAKA
Al-Hussein, M., Niaz, M., A., Yu, H., & Kim, H. 2006. Integrating 3D
visualization and simulation for tower crane operations on
construction sites. Automation in Construction, 15(5), 554-562.
Gray, C., and Little, J. 1985. A systematic approach to the selection of an
appropriate crane for a construction site. Construction Management
and Economics, 3, pp. 121-144.
Irizarry. J., Karan, E. P. 2012. Optimizing Location Of Tower Cranes On
Construction Sites Through Gis And Bim Integration. Journal of
Information Technology in Construction, 17, 351-366.
Kang, S.,C., & Miranda, E. 2004. Automated Simulation of the Erection
Activities in Virtual Construction. Proceedings of The International
Conference on Computing in Civil and Building Engineering
(ICCCBE).
Kholi, Ahmad. 2012. Alat Berat. Penerbit : PT. Remaja Rosdakarya.
Lee, D., Son, K., & Kim, S. 2011. Analysis Of Operation Efficiency Of Tower
Crane In FormWork Construction For Multi-Family Housing.
Proceedings of the 28th ISARC, 1225-1227.
Lien, L., C. & Cheng, M., Y. 2013. Particle Bee Algorithm For Tower Cranes
Layout With Materials Quantity Supply And Demand Optimization.
Automation in Construction, 45, 25-32.
xii
Universitas Sumatera Utara
Pranata, A., H., Adi, T., J., W., & Putri, Y., E. 2012. Perbandingan
Produktivitas Static Tower Crane dan Mobile Crane dengan
Modifikasi Posisi Titik Supply. Jurnal Teknik Pomits 1(1), 1-6.
Rahman, Sofyan. 2011. Optimasi Lokai Untuk Group Tower Crane Pada Proyek
Apartement Guna Wangsa Surabaya. Tugas Akhir, Institut
Teknologi Sepuluh November.
Rostiyanti, S. F. 2002. Alat Berat untuk Proyek Konstruksi, Rineka Cipta,
Jakarta.
Sebt, M. H, Karan , E. P, Delavar. M. R. 2008. Potential Application of GIS to
Layout of Construction Temporary Facilities. International Journal
of Civil
Engineering, Vol. 6, No. 4, December 2008
Tam and Arthur W T Leung. 2008. Genetic Algorithm Modeling Aided with 3D
Visualization in Optimizing Construction Site Facility Layout.
International Department of Building & Construction and Division
of Building Science and Technology, City University of Hong
Kong.
Yudha, B.A. Bhirawa. 2015. Evaluasi Penempatan Tower Crane pada Proyek
Pembangunan Jember Icon. Tugas Akhir, Universitas Jember.
xiii
Universitas Sumatera Utara
DAFTAR LAMPIRAN
Lampiran A : Spesifikasi Tower Crane
Lampiran B : Waktu Angkut Skenario Original
Lampiran C : Waktu Angkut Skenario 1
Lampiran D : Waktu Angkut Skenario 2
Lampiran E : Waktu Angkut Skenario 3
Lampiran F : Rangkuman Waktu Angkut Skenario Original Sampai Skenario 3
xiv
Universitas Sumatera Utara
[1].
Irizarry. J., Karan, E. P. 2012. Optimizing Location Of Tower Cranes
On Construction
Sites Through Gis And Bim Integration. Journal of
Information Technology in Construction, 17, 351-366.
[2].
Irizarry. J., Karan, E. P. 2012. Optimizing Location Of Tower Cranes
On Construction
Sites Through Gis And Bim Integration. Journal of
Information Technology in Construction, 17, 351-366.
[3].
Al-Hussein, M., Niaz, M., A., Yu, H., & Kim, H. 2006. Integrating 3D
visualization and simulation for tower crane operations on construction
sites. Automation in Construction, 15(5), 554-562.
[4].
Irizarry. J., Karan, E. P. 2012. Optimizing Location Of Tower Cranes
On Construction
Sites Through Gis And Bim Integration. Journal of
Information Technology in Construction, 17, 351-366.
[5].
Rostiyanti, S. F. 2002. Alat Berat untuk Proyek Konstruksi, Rineka Cipta,
Jakarta.
[6].
Gray, C., and Little, J. (1985). A systematic approach to the selection
of an appropriate crane for a construction site,
Construction
Management and Economics, 3, pp. 121-144.
[7].
Kholil, Ahmad. 2012. Alat Berat. Penerbit : PT. Remaja Rosdakarya.
[8].
Kholil, Ahmad. 2012. Alat Berat. Penerbit : PT. Remaja Rosdakarya.
[9].
Kholil, Ahmad. 2012. Alat Berat. Penerbit : PT. Remaja Rosdakarya.
[10]. Kholil, Ahmad. 2012. Alat Berat. Penerbit : PT. Remaja Rosdakarya.
x
Universitas Sumatera Utara
[11]. Rostiyanti, S. F. 2002. Alat Berat untuk Proyek Konstruksi, Rineka Cipta,
Jakarta.
[12]. Sebt, M. H, Karan , E. P, Delavar. M. R. 2008. Potential Application of
GIS to Layout of Construction Temporary Facilities. International Journal
of Civil Engineering, Vol. 6, No. 4, December 2008.
[13]. Sebt, M. H, Karan , E. P, Delavar. M. R. 2008. Potential Application of
GIS to Layout of Construction Temporary Facilities. International Journal
of Civil Engineering, Vol. 6, No. 4, December 2008.
[14]. Tam and Arthur W T Leung. 2008. Genetic Algorithm Modeling Aided
with 3D Visualization in Optimizing Construction Site Facility Layout.
International Department of Building & Construction and Division of
Building Science and Technology, City University of Hong Kong.
[15]. Kang, S.,C., & Miranda, E. 2004. Automated Simulation of the Erection
Activities in Virtual Construction. Proceedings of The International
Conference on Computing in Civil and Building Engineering (ICCCBE).
xi
Universitas Sumatera Utara
DAFTAR PUSTAKA
Al-Hussein, M., Niaz, M., A., Yu, H., & Kim, H. 2006. Integrating 3D
visualization and simulation for tower crane operations on
construction sites. Automation in Construction, 15(5), 554-562.
Gray, C., and Little, J. 1985. A systematic approach to the selection of an
appropriate crane for a construction site. Construction Management
and Economics, 3, pp. 121-144.
Irizarry. J., Karan, E. P. 2012. Optimizing Location Of Tower Cranes On
Construction Sites Through Gis And Bim Integration. Journal of
Information Technology in Construction, 17, 351-366.
Kang, S.,C., & Miranda, E. 2004. Automated Simulation of the Erection
Activities in Virtual Construction. Proceedings of The International
Conference on Computing in Civil and Building Engineering
(ICCCBE).
Kholi, Ahmad. 2012. Alat Berat. Penerbit : PT. Remaja Rosdakarya.
Lee, D., Son, K., & Kim, S. 2011. Analysis Of Operation Efficiency Of Tower
Crane In FormWork Construction For Multi-Family Housing.
Proceedings of the 28th ISARC, 1225-1227.
Lien, L., C. & Cheng, M., Y. 2013. Particle Bee Algorithm For Tower Cranes
Layout With Materials Quantity Supply And Demand Optimization.
Automation in Construction, 45, 25-32.
xii
Universitas Sumatera Utara
Pranata, A., H., Adi, T., J., W., & Putri, Y., E. 2012. Perbandingan
Produktivitas Static Tower Crane dan Mobile Crane dengan
Modifikasi Posisi Titik Supply. Jurnal Teknik Pomits 1(1), 1-6.
Rahman, Sofyan. 2011. Optimasi Lokai Untuk Group Tower Crane Pada Proyek
Apartement Guna Wangsa Surabaya. Tugas Akhir, Institut
Teknologi Sepuluh November.
Rostiyanti, S. F. 2002. Alat Berat untuk Proyek Konstruksi, Rineka Cipta,
Jakarta.
Sebt, M. H, Karan , E. P, Delavar. M. R. 2008. Potential Application of GIS to
Layout of Construction Temporary Facilities. International Journal
of Civil
Engineering, Vol. 6, No. 4, December 2008
Tam and Arthur W T Leung. 2008. Genetic Algorithm Modeling Aided with 3D
Visualization in Optimizing Construction Site Facility Layout.
International Department of Building & Construction and Division
of Building Science and Technology, City University of Hong
Kong.
Yudha, B.A. Bhirawa. 2015. Evaluasi Penempatan Tower Crane pada Proyek
Pembangunan Jember Icon. Tugas Akhir, Universitas Jember.
xiii
Universitas Sumatera Utara
DAFTAR LAMPIRAN
Lampiran A : Spesifikasi Tower Crane
Lampiran B : Waktu Angkut Skenario Original
Lampiran C : Waktu Angkut Skenario 1
Lampiran D : Waktu Angkut Skenario 2
Lampiran E : Waktu Angkut Skenario 3
Lampiran F : Rangkuman Waktu Angkut Skenario Original Sampai Skenario 3
xiv
Universitas Sumatera Utara