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2.1. NotationVariablesXR njt the am
2.1. Notation
Variables
XR njt the amount of product type n produced at plant j in regular time of period t
XOnjt the amount of product type n produced at plant j in overtime of period t
L jt available workers at plant j in period t
Fjt the number of workers fired at plant j in period t
H jt the number of workers hired at plant j in period t
I1 njt inventory level of product type n at plant j at the end of period t
I2 nit inventory level of product type n at demand point i at the end of period t
number of units of product type n shipped from supplier k (1, 2, …, K) to plant j in period t by
XQnkjgt vehicle type g (1, 2, ..., G)
number of units of product type n shipped from plant j to demand point i in period t by
YQnjigt vehicle type g
bnit shortage of product n in demand point i in period t
Ynjt a binary variable that determines whether plant j produces product type n in period t
XVkjgt the number of vehicle type g used for transportation between supplier k and factory j
YVjigt the number of vehicle type g used for transportation between factory j and customer zone i
Parameters
demand for product n ( 1 , 2, …, N) at demand point i ( 1, 2, …, I) in period t ( 1, 2, …, T) /
under scenario s (1, ..., S)
s
Dnit / Dnit
CR jn the variable production cost for product type n in regular time at plant j
CO jn the variable production cost for product type n in overtime at plant j
PCnj the fixed production cost of product type n at plant j
Pni sale price of product n at demand point i
SC j labor cost at factory j
anj manpower needs to produce one unit of product type n at plant j
FC j firing cost at factory j
HCj hiring cost at factory j
CI1 nj inventory holding cost for product n at plant j
CI2 ni inventory holding cost for product n at demand point i
allowed fraction of overtime
TVg the variable transportation cost of vehicle type g
TFg the fixed transportation cost when vehicle type g is selected for transportation
d1 kj distance between supplier k and factory j
d2 ji distance between factory j and customer zone i
CMnk cost of product type n provided by supplier k
CP1 j product storage capacity at plant j
CP2 j product storage capacity at customer zone i
CSnk number of product type n that could be provided by supplier k in each period
vn volume of a unit product type n (m3)
Vg the capacity of vehicle type g (m3)
GHGg CO2 emissions for vehicle type g per distance unit
GHljt allowed greenhouse gas emission level in period t by factory j
WT allowed amount of waste produced by each factory
wp percentage of waste produced by product n in factory j
LTnkjg lead time required for shipping product type n from supplier k to plant j using vehicle type g
lead time required for shipping product type n from plant j to demand point i using vehicle
LTnjig type g
ni shortage cost of product n at demand point i
ρξ occurrence probability of scenario s (1, ..., S)
2.2. Deterministic Model
Variables
XR njt the amount of product type n produced at plant j in regular time of period t
XOnjt the amount of product type n produced at plant j in overtime of period t
L jt available workers at plant j in period t
Fjt the number of workers fired at plant j in period t
H jt the number of workers hired at plant j in period t
I1 njt inventory level of product type n at plant j at the end of period t
I2 nit inventory level of product type n at demand point i at the end of period t
number of units of product type n shipped from supplier k (1, 2, …, K) to plant j in period t by
XQnkjgt vehicle type g (1, 2, ..., G)
number of units of product type n shipped from plant j to demand point i in period t by
YQnjigt vehicle type g
bnit shortage of product n in demand point i in period t
Ynjt a binary variable that determines whether plant j produces product type n in period t
XVkjgt the number of vehicle type g used for transportation between supplier k and factory j
YVjigt the number of vehicle type g used for transportation between factory j and customer zone i
Parameters
demand for product n ( 1 , 2, …, N) at demand point i ( 1, 2, …, I) in period t ( 1, 2, …, T) /
under scenario s (1, ..., S)
s
Dnit / Dnit
CR jn the variable production cost for product type n in regular time at plant j
CO jn the variable production cost for product type n in overtime at plant j
PCnj the fixed production cost of product type n at plant j
Pni sale price of product n at demand point i
SC j labor cost at factory j
anj manpower needs to produce one unit of product type n at plant j
FC j firing cost at factory j
HCj hiring cost at factory j
CI1 nj inventory holding cost for product n at plant j
CI2 ni inventory holding cost for product n at demand point i
allowed fraction of overtime
TVg the variable transportation cost of vehicle type g
TFg the fixed transportation cost when vehicle type g is selected for transportation
d1 kj distance between supplier k and factory j
d2 ji distance between factory j and customer zone i
CMnk cost of product type n provided by supplier k
CP1 j product storage capacity at plant j
CP2 j product storage capacity at customer zone i
CSnk number of product type n that could be provided by supplier k in each period
vn volume of a unit product type n (m3)
Vg the capacity of vehicle type g (m3)
GHGg CO2 emissions for vehicle type g per distance unit
GHljt allowed greenhouse gas emission level in period t by factory j
WT allowed amount of waste produced by each factory
wp percentage of waste produced by product n in factory j
LTnkjg lead time required for shipping product type n from supplier k to plant j using vehicle type g
lead time required for shipping product type n from plant j to demand point i using vehicle
LTnjig type g
ni shortage cost of product n at demand point i
ρξ occurrence probability of scenario s (1, ..., S)
2.2. Deterministic Model
0/5000
2.1. notasiVariabelXR njt jumlah n jenis produk diproduksi di pabrik j dalam waktu yang teratur periode tXOnjt jumlah n jenis produk diproduksi di pabrik j di lembur periode tL jt tersedia pekerja di pabrik j dalam periode tFjt jumlah pekerja menembaki j tanaman dalam periode tH jt jumlah pekerja yang dipekerjakan di j tanaman dalam periode tI1 njt tingkat persediaan produk jenis n pada tanaman j pada akhir periode tTingkat persediaan nit I2 n jenis produk pada permintaan titik saya pada akhir periode tjumlah unit produk jenis n dikirim dari pemasok k (1, 2,..., K) untuk menanam j dalam periode t olehXQnkjgt kendaraan tipe g (1, 2,..., G)jumlah unit produk jenis n dikirim dari tanaman j ke titik demand saya dalam periode t olehYQnjigt kendaraan tipe gkekurangan bnit n produk permintaan titik saya dalam periode tYnjt variabel biner yang menentukan apakah j tanaman menghasilkan produk jenis n dalam periode tXVkjgt jumlah g tipe kendaraan yang digunakan untuk transportasi antara pemasok j k dan pabrikYVjigt jumlah kendaraan jenis g digunakan untuk transportasi antara pabrik j dan pelanggan zonaParameterpermintaan untuk produk n (1, 2,..., N) saat permintaan saya (1, 2,..., saya) dalam periode t (1, 2,..., T) /di bawah skenario s (1,..., S)sDnit / DnitCR jn biaya produksi variabel untuk produk jenis n dalam biasa waktu di j tanamanCO Jn biaya produksi variabel untuk produk jenis n di lembur pada tanaman jPCnj biaya produksi tetap n jenis produk pada tanaman jTitik harga penjualan PNI n produk pada permintaan sayaSC j biaya tenaga kerja di pabrik jANJ tenaga perlu menghasilkan satu unit produk jenis n pada tanaman jJ FC menembakkan biaya di pabrik jHCj mempekerjakan biaya di pabrik jCI1 nj persediaan memegang biaya untuk produk n di j tanamanCI2 ni persediaan memegang biaya untuk produk n saat permintaan saya diperbolehkan fraksi lemburTGV biaya variabel kendaraan tipe gTFg transportasi tetap biaya ketika kendaraan tipe g yang dipilih untuk transportasiD1 kj jarak antara pemasok j k dan pabrikD2 ji jarak antara pabrik j dan pelanggan zona iBiaya CMnk n jenis produk yang disediakan oleh pemasok kCP1 j produk kapasitas penyimpanan di j tanamanCP2 j kapasitas penyimpanan produk pelanggan di zona iCSnk jumlah n jenis produk yang bisa disediakan oleh pemasok k dalam setiap periodeVN volume unit produk jenis n (m3)VG kapasitas kendaraan tipe g (m3)Emisi GHGg CO2 untuk kendaraan type g per satuan jarakGHljt diperbolehkan tingkat emisi gas rumah kaca dalam periode t oleh pabrik jWT diperbolehkan jumlah limbah yang dihasilkan oleh pabrik setiappersentase WP limbah yang dihasilkan oleh n produk di pabrik jLTnkjg memimpin waktu yang dibutuhkan untuk pengiriman produk jenis n dari pemasok k untuk tanaman j menggunakan kendaraan tipe gmemimpin waktu yang dibutuhkan untuk pengiriman produk jenis n dari tanaman j ke titik demand saya menggunakan kendaraanLTnjig tipe gni kekurangan biaya produk n pada permintaan titik sayaProbabilitas terjadinya ρξ skenario s (1,..., S)2.2. deterministik Model
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