Working with 'Conditional'
BoundType
, MinNumAssets
, and
MaxNumAssets
Constraints Using PortfolioMAD Objects
When any one, or any combination of 'Conditional'
BoundType
, MinNumAssets
, or
MaxNumAssets
constraints are active, the portfolio problem is
formulated by adding NumAssets
binary variables, where
0
indicates not invested, and 1
is invested.
For example, to explain the 'Conditional'
BoundType
and MinNumAssets
and
MaxNumAssets
constraints, assume that your portfolio has a
universe of 100 assets that you want to invest:
'Conditional'
BoundType
(also known as semicontinuous constraints), set bysetBounds
, is often used in situations where you do not want to invest small values. A standard example is a portfolio optimization problem where many small allocations are not attractive because of transaction costs. Instead, you prefer fewer instruments in the portfolio with larger allocations. This situation can be handled using'Conditional'
BoundType
constraints for aPortfolioMAD
object.For example, the weight you invest in each asset is either
0
or between[0.01, 0.5]
. Generally, a semicontinuous variable x is a continuous variable between bounds [lb
,ub
] that also can assume the value0
, wherelb
>0
,lb
≤ub
. Applying this to portfolio optimization requires that very small or large positions should be avoided, that is values that fall in (0
,lb
) or are more thanub
.MinNumAssets
andMaxNumAssets
(also known as cardinality constraints), set bysetMinMaxNumAssets
, limit the number of assets in aPortfolioMAD
object. For example, if you have 100 assets in your portfolio and you want the number of assets allocated in the portfolio to be from 40 through 60. UsingMinNumAssets
andMaxNumAssets
you can limit the number of assets in the optimized portfolio, which allows you to limit transaction and operational costs or to create an index tracking portfolio.
Setting 'Conditional'
BoundType
Constraints Using the setBounds
Function
Use setBounds
with a
'conditional'
BoundType
to set xi =
0
or 0.02
<= xi <= 0.5
for all i=1
,...NumAssets
:
p = PortfolioMAD; p = setBounds(p, 0.02, 0.5,'BoundType', 'Conditional', 'NumAssets', 3)
p = PortfolioMAD with properties: BuyCost: [] SellCost: [] RiskFreeRate: [] Turnover: [] BuyTurnover: [] SellTurnover: [] NumScenarios: [] Name: [] NumAssets: 3 AssetList: [] InitPort: [] AInequality: [] bInequality: [] AEquality: [] bEquality: [] LowerBound: [3×1 double] UpperBound: [3×1 double] LowerBudget: [] UpperBudget: [] GroupMatrix: [] LowerGroup: [] UpperGroup: [] GroupA: [] GroupB: [] LowerRatio: [] UpperRatio: [] MinNumAssets: [] MaxNumAssets: [] ConditionalBudgetThreshold: [] ConditionalUpperBudget: [] BoundType: [3×1 categorical]
Setting the Limits on the Number of Assets Invested Using the setMinMaxNumAssets
Function
You can also set the MinNumAssets
and
MaxNumAssets
properties to define a limit on the number of
assets invested using setMinMaxNumAssets
. For example, by setting
MinNumAssets
=MaxNumAssets
=2
,
only two of the three assets are invested in the
portfolio.
p = PortfolioMAD; p = setBounds(p, 0.02, 0.5,'BoundType', 'Conditional', 'NumAssets', 3) p = setMinMaxNumAssets(p, 2, 2)
p = PortfolioMAD with properties: BuyCost: [] SellCost: [] RiskFreeRate: [] Turnover: [] BuyTurnover: [] SellTurnover: [] NumScenarios: [] Name: [] NumAssets: 3 AssetList: [] InitPort: [] AInequality: [] bInequality: [] AEquality: [] bEquality: [] LowerBound: [3×1 double] UpperBound: [3×1 double] LowerBudget: [] UpperBudget: [] GroupMatrix: [] LowerGroup: [] UpperGroup: [] GroupA: [] GroupB: [] LowerRatio: [] UpperRatio: [] MinNumAssets: 2 MaxNumAssets: 2 ConditionalBudgetThreshold: [] ConditionalUpperBudget: [] BoundType: [3×1 categorical]
See Also
PortfolioMAD
| setBounds
| setMinMaxNumAssets
| setDefaultConstraints
| setBounds
| setBudget
| setConditionalBudget
| setGroups
| setGroupRatio
| setEquality
| setInequality
| setTurnover
| setOneWayTurnover
Related Examples
- Setting Default Constraints for Portfolio Weights Using PortfolioMAD Object
- Working with 'Simple' Bound Constraints Using PortfolioMAD Object
- Troubleshooting for Setting 'Conditional' BoundType, MinNumAssets, and MaxNumAssets Constraints
- Creating the PortfolioMAD Object
- Validate the MAD Portfolio Problem
- Estimate Efficient Portfolios Along the Entire Frontier for PortfolioMAD Object
- Estimate Efficient Frontiers for PortfolioMAD Object
- Asset Returns and Scenarios Using PortfolioMAD Object